This repository contains demos and example solvers that make use of the MUI Multiscale Universal Interface to perform multiscale/multiphysics computations. The MUI primary repository can be found at https://github.com/MxUI/MUI.
The source code is dual-licensed under both GPL v3 and Apache v2.
To run the examples you need a mpic++
wrapper with C++11 enabled backend.
To run the first example 0-hello-world:
# clone the repository
cd <repository_directory>
git submodule update --init # to obtain MUI
cd 0-hello-world
make
mpirun -np 1 ./hello mpi://domain1/ifs 0.618 : -np 1 ./hello mpi://domain2/ifs 1.414
To run 2-heat:
cd <repository_directory>/1-heat
make
mpirun -np 1 ./heat-coarse : -np 1 ./heat-fine
matlab -r vizmulti
You can view the time evolution of the simulation by running the vizmulti.m MATLAB script and dragging the slider bar in the figure.
To run 4-bd-ns:
cd <repository_directory>/4-bd-ns
make
mpirun -np 1 ./brownian : -np 4 ./vortex
gnuplot -p plot.gp
Also checkout flow.png for a visualization of the flow field.
To run 5-multi-domain:
cd <repository_directory>/5-multi-domain
make
Tang Y.-H., Kudo, S., Bian, X., Li, Z., & Karniadakis, G. E. Multiscale Universal Interface: A Concurrent Framework for Coupling Heterogeneous Solvers, Journal of Computational Physics, 2015, 297.15, 13-31.
Should you have any question please do not hesitate to contact the developers, a list can be found within the MxUI GitHub organisation pages https://github.com/MxUI/MUI