Compiling the Einstein Toolkit
The recommended way to compile the Einstein Toolkit is to use the Simulation Factory ("SimFactory").
Contents
Configuring SimFactory for your machine
The ET depends on various libraries, and needs to interact with machine-specific queueing systems and MPI implementations. As such, it needs to be configured for a given machine. For this, it uses SimFactory. Generally, configuring SimFactory means providing an optionlist, for specifying library locations and build options, a submit script for using the batch queueing system, and a runscript, for specifying how Cactus should be run, e.g. which mpirun command to use.
SimFactory comes with support for many of the large supercomputers. If you are compiling on one of these, it should be sufficient to run
sim setup
and answer the questions, and SimFactory will automatically detect the correct option list, submit script and run script.
SimFactory also contains general support for specific operating systems commonly used on workstations or laptops, including Mac OS, Ubuntu, Cent OS and Scientific Linux. To configure SimFactory for one of these, you need to find the suitable files in simfactory/mdb/optionlists and simfactory/mdb/runscripts and specify their names on the sim setup command line.
| Operating system | Option list | Run script | ||||||
|---|---|---|---|---|---|---|---|---|
| Debian | debian.cfg | debian.sh | ||||||
| Ubuntu/Linux Mint | ubuntu.cfg | debian.sh | ||||||
| fedora.cfg | debian.sh | |||||||
| osx-macports.cfg | osx-macports.run | |||||||
| osx-homebrew.cfg | generic-mpi.run | Notes | For OS X with Homebrew, you will need to run export CPATH=/usr/local/include LIBRARY_PATH=/usr/local/lib before building or running. For Fedora, you will need to run "module load mpi" before compiling or running, and you may need to log out and back in if you have just intalled mpich to make the module command work. | |||||
See the table at the right for the files to use for supported operating systems. You do not need to specify a submit script, as there is no queueing system on a workstation or laptop. Often the optionlist will contain a comment near the top explaining which system packages need to be installed to use the optionlist. For example, for Debian, after installing the packages listed in the comment at the top of debian.cfg,
sim setup --optionlist=debian.cfg --runscript debian.sh
will configure SimFactory for your machine. For some systems, the runscript can be the general "generic-mpi.sh", or one from a similar OS, for example for Ubuntu you can use debian.sh as a run script.
If there is no existing optionlist or runscript (for a cluster, also a submit script) for your machine, you will need to write them yourself. It is recommended to start from one of the already-written files for another machine which is as close as possible to the machine you are trying to use. See the sections later for help with this.
Building the Einstein Toolkit
Assuming that SimFactory has been successfully set up on your machine, you should be able to build the Einstein Toolkit with
sim build --thornlist path/to/thornlist.th
Writing your own optionlist
If your machine is not supported by SimFactory already, you will need to write your own optionlist. The options provided by Cactus are described in the Cactus documentation. This page provides additional information and recommendations.
The following is based on the ubuntu.cfg optionlist.
VERSION = 2012-09-28
Cactus will reconfigure when the VERSION string changes.
Compilers
CPP = cpp FPP = cpp CC = gcc CXX = g++ F77 = gfortran F90 = gfortran
The C and Fortran preprocessors, and the C, C++, Fortran 77 and Fortran 90 compilers, are specified by these options. You can specify a full path if the compiler you want to use is not available on your default path. Note that it is strongly recommended to use compilers from the same family; e.g. don't mix the Intel C Compiler with the GNU Fortran Compiler.
Compilation and linking flags
CPPFLAGS = -DMPICH_IGNORE_CXX_SEEK FPPFLAGS = -traditional CFLAGS = -g3 -march=native -std=gnu99 CXXFLAGS = -g3 -march=native -std=gnu++0x F77FLAGS = -g3 -march=native -fcray-pointer -m128bit-long-double -ffixed-line-length-none F90FLAGS = -g3 -march=native -fcray-pointer -m128bit-long-double -ffixed-line-length-none LDFLAGS = -rdynamic
Cactus thorns can be written in C or C++. Cactus supports the C99 and C++0x standards respectively. Additionally, the Einstein Toolkit requires the GNU extensions provided by the options gnu99 / gnu++0x. If these extensions are not available, some Einstein Toolkit thorns will not compile.
-g3 ensures that debugging symbols are included in the object files. It is not necessary to set DEBUG = yes to get debugging symbols.
The rdynamic linker flag ensures that additional information is available in the executable for producing backtraces at runtime in the event of an internal error.
LIBDIRS = C_LINE_DIRECTIVES = yes F_LINE_DIRECTIVES = yes
Debugging
DEBUG = no CPP_DEBUG_FLAGS = -DCARPET_DEBUG FPP_DEBUG_FLAGS = -DCARPET_DEBUG C_DEBUG_FLAGS = -O0 CXX_DEBUG_FLAGS = -O0 F77_DEBUG_FLAGS = -O0 F90_DEBUG_FLAGS = -O0
When DEBUG = yes is set (e.g. on the make command line or with SimFactory's --debug option), these debug flags are used. The intention here is to disable optimisation and enable additional code which may slow down execution but makes the code easier to debug.
Optimisation
OPTIMISE = yes CPP_OPTIMISE_FLAGS = -DKRANC_VECTORS # -DCARPET_OPTIMISE -DNDEBUG FPP_OPTIMISE_FLAGS = # -DCARPET_OPTIMISE -DNDEBUG C_OPTIMISE_FLAGS = -O2 -ffast-math CXX_OPTIMISE_FLAGS = -O2 -ffast-math F77_OPTIMISE_FLAGS = -O2 -ffast-math F90_OPTIMISE_FLAGS = -O2 -ffast-math
Profiling
PROFILE = no CPP_PROFILE_FLAGS = FPP_PROFILE_FLAGS = C_PROFILE_FLAGS = -pg CXX_PROFILE_FLAGS = -pg F77_PROFILE_FLAGS = -pg F90_PROFILE_FLAGS = -pg
OpenMP
OPENMP = yes CPP_OPENMP_FLAGS = -fopenmp FPP_OPENMP_FLAGS = -fopenmp C_OPENMP_FLAGS = -fopenmp CXX_OPENMP_FLAGS = -fopenmp F77_OPENMP_FLAGS = -fopenmp F90_OPENMP_FLAGS = -fopenmp
Warnings
WARN = yes CPP_WARN_FLAGS = -Wall FPP_WARN_FLAGS = -Wall C_WARN_FLAGS = -Wall CXX_WARN_FLAGS = -Wall F77_WARN_FLAGS = -Wall F90_WARN_FLAGS = -Wall
ExternalLibraries
The Einstein toolkit thorns use a variety of third-party libraries like MPI or HDF5. These are usually provided by helper thorns in the ExternalLibaries arrangement. As a general rule, to enable a capability FOO add
ExternalLibraries/FOO
to your ThornList and set FOO_DIR to the directory where the include and lib directories are found.
HDF5
If no HDF5 options are given, then HDF5 will be used if it can be automatically detected from standard locations, and will be built from a source package in the HDF5 thorn if not. Alternatively you can specify HDF5_DIR to point to an HF5 installation, for example
HDF5_DIR = /usr/local/hdf5-1.9.1
The following options disable support for Fortran and C++ when building HDF5, as it is not required by the Einstein Toolkit.
HDF5_ENABLE_FORTRAN = no HDF5_ENABLE_CXX = no
MPI
MPI_DIR = /usr MPI_INC_DIRS = /usr/include/mpich2 MPI_LIB_DIRS = /usr/lib MPI_LIBS = mpich fmpich mpl
Others
PTHREADS_DIR = NO_BUILD
Writing your own submission script
The submission script is used to submit a job to the queueing system. See the examples in simfactory/mdb/submitscripts, and create a new one for your cluster. This can then be
