Implementation of the Generalized Multiscale Finite Element Method (GMsFEM) for solution problems in heterogeneous or/and perforated media based on the system representation (fvm or fem fine grid approximation)

My papers about multiscale method:

• Chung ET, Efendiev Y, Li G, Vasilyeva M. Generalized multiscale finite element methods for problems in perforated heterogeneous domains PDF
• Vasilyeva M, Chung ET, Efendiev Y, Tyrylgin A. A three-level multi-continua upscaling method for flow problems in fractured porous media PDF

I would be grateful if you add citations to my relevant publications when you use it in your research.

Implementation of the method contains:

• fine grid system generation (./systemFEM.py and ./systemFVM.py) - create mass and stiffness matrices and right - hand side vector (create fine grid system)
• local domains (coarse grid) generation (./local-domain/) - create files with coarse cells coordinates and cell indices in local domains
• multiscale basis function calculation (./gmsfem-basis/) - solve local spectral problems to generate and save multiscale basis functions (use system generated from first step)
• projection matrix generation (./ms-rgen/) - load multiscale basis functions and create projection matrix R
• fine scale and multiscale solver (./solver/) - solve fine grid system or/and multiscale solver (use system generated from first step)

Implementation based on the FEniCS (geometry objects, functions for saving and visualization) and PETSc (matrices, vectors and solvers).

Fine grid simulations:

1. run fenics container

docker run -ti -v $(pwd):/home/fenics/shared quay.io/fenicsproject/stable

2. create folders ./data/out/, ./data/modelF/

3. generate fine grid system

python systemFEM.py

or

python systemFVM.py

4. run fine grid solver in ./solver/

./solver F 0 20 0.0003 80 6400 ../data/modelF/ ../data/out/ 1 ./ err.txt

or

./solver F 1 20 0.003 ../data/mesh/mesh-p 6101 ../data/modelF/ ../data/out/ 1 ./ err.txt

or

./solver F 1 20 0.03 ../data/mesh/mesh-h 6373 ../data/modelF/ ../data/out/ 1 ./ err.txt

Multiscale simulations:

1. create folders ./data/modelMs/omega10fem/, ./data/modelMs/eigen/, ./data/modelMs/dof/

2. local domains generations (coarse grid) in ./local-domain/

./omegas 2 ../data/omega10/ 10 0.1 0.0 10 0.1 0.0

or

./omegas 2 ../data/modelMs/omega10/ 10 0.2 -1.0 10 0.2 -1.0

3. multiscale basis generation in ./gmsfem-basis/

./run

4. generate R in ./ms-rgen/

./rgen 1 6400 121 ../data/modelMs/ 16

or

./rgen 1 6101 121 ../data/modelMs/ 16

or

./rgen 1 6373 121 ../data/modelMs/ 16

5. solve multiscale in ./solver/

./solver C 0 20 0.0003 80 6400 ../data/modelF/ ../data/out/ 1936 ../data/modelMs/R100 err.txt

or

./solver C 1 20 0.003 ../data/mesh/mesh-p 6101 ../data/modelF/ ../data/out/ 1936 ../data/modelMs/R100 err.txt

or

./solver C 1 20 0.03 ../data/mesh/mesh-h 6373 ../data/modelF/ ../data/out/ 1936 ../data/modelMs/R100 err.txt