ogs6py is a python-API for the OpenGeoSys finite element sofware. Its main functionalities include creating and altering OGS6 input files as well as executing OGS. The package allows to streamline OGS-workflows with python or Julia entirely in jupyter or pluto notebooks as demonstrated in the following video:
To alter and execute OGS input, e.g., for looping over parameter ranges, two approaches exist:
1. creating a new input file using python method calls
2. altering existing input files
clone the repository and use pip/pip3 to install the package.
# git clone https://github.com/joergbuchwald/ogs6py.git
# cd ogs6py
# pip install --user .You can find the documentation under https://joergbuchwald.github.io/ogs6py-doc
The following example consists of a simple mechanics problem. The source file can be found in the examples directory The names of the method calls are based on the corresponing XML tags.
from ogs6py import ogs
model = ogs.OGS(PROJECT_FILE="simple_mechanics.prj")
model.geo.add_geom(filename="square_1x1.gml")
model.mesh.add_mesh(filename="square_1x1_quad_1e2.vtu")
model.processes.set_process(name="SD",
type="SMALL_DEFORMATION",
integration_order="2",
solid_density="rho_sr",
specific_body_force="0 0")
model.processes.set_constitutive_relation(type="LinearElasticIsotropic",
youngs_modulus="E",
poissons_ratio="nu")
model.processes.add_process_variable(process_variable="process_variable",
process_variable_name="displacement")
model.processes.add_process_variable(secondary_variable="sigma",
output_name="sigma")
model.timeloop.add_process(process="SD",
nonlinear_solver_name="basic_newton",
convergence_type="DeltaX",
norm_type="NORM2",
abstol="1e-15",
time_discretization="BackwardEuler")
model.timeloop.set_stepping(process="SD", type="FixedTimeStepping",
t_initial="0",
t_end="1",
repeat="4",
delta_t="0.25")
model.timeloop.add_output(type="VTK",
prefix="blubb",
repeat="1",
each_steps="10",
variables=["displacement", "sigma"])
model.parameters.add_parameter(name="E", type="Constant", value="1")
model.parameters.add_parameter(name="nu", type="Constant", value="0.3")
model.parameters.add_parameter(name="rho_sr", type="Constant", value="1")
model.parameters.add_parameter(name="displacement0",
type="Constant",
values="0 0")
model.parameters.add_parameter(name="dirichlet0", type="Constant", value="0")
model.parameters.add_parameter(name="dirichlet1", type="Constant", value="0.05")
model.processvars.set_ic(process_variable_name="displacement",
components="2",
order="1",
initial_condition="displacement0")
model.processvars.add_bc(process_variable_name="displacement",
geometrical_set="square_1x1_geometry",
geometry="left",
type="Dirichlet",
component="0",
parameter="dirichlet0")
model.processvars.add_bc(process_variable_name="displacement",
geometrical_set="square_1x1_geometry",
geometry="bottom",
type="Dirichlet",
component="1",
parameter="dirichlet0")
model.processvars.add_bc(process_variable_name="displacement",
geometrical_set="square_1x1_geometry",
geometry="top",
type="Dirichlet",
component="1",
parameter="dirichlet1")
model.nonlinsolvers.add_non_lin_solver(name="basic_newton",
type="Newton",
max_iter="4",
linear_solver="general_linear_solver")
model.linsolvers.add_lin_solver(name="general_linear_solver",
kind="lis",
solver_type="cg",
precon_type="jacobi",
max_iteration_step="10000",
error_tolerance="1e-16")
model.linsolvers.add_lin_solver(name="general_linear_solver",
kind="eigen",
solver_type="CG",
precon_type="DIAGONAL",
max_iteration_step="10000",
error_tolerance="1e-16")
model.linsolvers.add_lin_solver(name="general_linear_solver",
kind="petsc",
prefix="sd",
solver_type="cg",
precon_type="bjacobi",
max_iteration_step="10000",
error_tolerance="1e-16")
model.write_input()
model.run_model(logfile="out.log")model.runModel(path="~/github/ogs/build_mkl/bin")An example using the MPL can be find in example_THM.py.
E.g., to iterate over three Young's moduli one can use the replace parameter method:
Es = [1,2,3]
filename = "simple_mechanics.prj"
for E in Es:
model = OGS(INPUT_FILE=filename, PROJECT_FILE=filename, MKL=True)
model.replace_parameter(name="E", value=E)
model.replace_text("out_E="+str(E), xpath="./time_loop/output/prefix")
model.write_input()
model.run_model(path="~/github/ogs/build_mkl/bin")The MKL=True option executes source /opt/intel/mkl/bin/mklvars.sh intel64 before the ogs call.
Instead of the replace_parameter method, the more general replace_text method can also be used to replace the young modulus in this example:
model.replace_text(E, xpath="./parameters/parameter[name='E']/value")The Young's modulus in this file can also be accessed through 0'th occurrence of the place addressed by the xpath ./parameters/parameter/value
model.replace_text(E, xpath="./parameters/parameter/value", occurrence=0)For MPL based processes, there exist specific functions to set phase and medium properties: e.g.,
model.replace_phase_property(mediumid=0, phase="Solid", name="thermal_expansivity", value="42")for a phse property and
model.replace_medium_property(mediumid=0, name="porosity", value="0.24")for a property that lives on the medium level.
To parse the OGS output that is piped into a file do
df = model.parse_out("examples/out_thm.log")which returns a pandas dataframe.
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