############################################################################## # # Copyright (c) 2003-2018 by The University of Queensland # http://www.uq.edu.au # # Primary Business: Queensland, Australia # Licensed under the Apache License, version 2.0 # http://www.apache.org/licenses/LICENSE-2.0 # # Development until 2012 by Earth Systems Science Computational Center (ESSCC) # Development 2012-2013 by School of Earth Sciences # Development from 2014 by Centre for Geoscience Computing (GeoComp) # ############################################################################## from __future__ import print_function, division __copyright__="""Copyright (c) 2003-2018 by The University of Queensland http://www.uq.edu.au Primary Business: Queensland, Australia""" __license__="""Licensed under the Open Software License version 3.0 http://www.opensource.org/licenses/osl-3.0.php""" __url__="https://launchpad.net/escript-finley" """ Test suite for PDE solvers on finley """ from test_simplesolve import SimpleSolveTestCase, SimpleSolveTestCaseOrder2 import esys.escriptcore.utestselect as unittest from esys.escriptcore.testing import * from esys.escript import Data, Solution, Vector, hasFeature from esys.finley import Rectangle, Brick from esys.escript.linearPDEs import SolverOptions HAVE_TRILINOS = hasFeature('trilinos') skip_muelu_long = False #hasFeature("longindex") # number of elements in the spatial directions NE0=12 NE1=12 NE2=8 OPTIMIZE=True @unittest.skipIf(not HAVE_TRILINOS, "Trilinos not available") class SimpleSolveOnTrilinos(SimpleSolveTestCase): pass @unittest.skipIf(not HAVE_TRILINOS, "Trilinos not available") class SimpleSolveOnTrilinosOrder2(SimpleSolveTestCaseOrder2): pass ## direct class Test_SimpleSolveFinleyRect_Order1_Trilinos_Direct(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.DIRECT def tearDown(self): del self.domain ## direct class Test_SimpleSolveFinleyRect_Order2_Trilinos_Direct(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.DIRECT def tearDown(self): del self.domain ### BiCGStab + Jacobi class Test_SimpleSolveFinleyRect_Order1_Trilinos_BICGSTAB_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_BICGSTAB_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain ## direct class Test_SimpleSolveFinleyBrick_Order1_Trilinos_Direct(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.DIRECT def tearDown(self): del self.domain ## direct class Test_SimpleSolveFinleyBrick_Order2_Trilinos_Direct(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.DIRECT def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_BICGSTAB_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_BICGSTAB_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.JACOBI self.REL_TOL=5.e-6 def tearDown(self): del self.domain ### PCG + Jacobi class Test_SimpleSolveFinleyRect_Order1_Trilinos_PCG_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_PCG_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_PCG_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_PCG_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain ### TFQMR + Jacobi class Test_SimpleSolveFinleyRect_Order1_Trilinos_TFQMR_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_TFQMR_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_TFQMR_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_TFQMR_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain ### MINRES + Jacobi class Test_SimpleSolveFinleyRect_Order1_Trilinos_MINRES_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_MINRES_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_MINRES_Jacobi(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_MINRES_Jacobi(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.JACOBI def tearDown(self): del self.domain ### BiCGStab + Gauss-Seidel class Test_SimpleSolveFinleyRect_Order1_Trilinos_BICGSTAB_GaussSeidel(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_BICGSTAB_GaussSeidel(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_BICGSTAB_GaussSeidel(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_BICGSTAB_GaussSeidel(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.GAUSS_SEIDEL self.REL_TOL=5.e-6 def tearDown(self): del self.domain ### PCG + AMG @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyRect_Order1_Trilinos_PCG_AMG(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyRect_Order2_Trilinos_PCG_AMG(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyBrick_Order1_Trilinos_PCG_AMG(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyBrick_Order2_Trilinos_PCG_AMG(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain ### TFQMR + Gauss-Seidel class Test_SimpleSolveFinleyRect_Order1_Trilinos_TFQMR_GaussSeidel(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_TFQMR_GaussSeidel(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_TFQMR_GaussSeidel(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_TFQMR_GaussSeidel(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.GAUSS_SEIDEL def tearDown(self): del self.domain ### MINRES + AMG @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyRect_Order1_Trilinos_MINRES_AMG(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyRect_Order2_Trilinos_MINRES_AMG(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyBrick_Order1_Trilinos_MINRES_AMG(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain @unittest.skipIf(skip_muelu_long, "MueLu AMG incompatible with index type long") class Test_SimpleSolveFinleyBrick_Order2_Trilinos_MINRES_AMG(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.AMG def tearDown(self): del self.domain ### BiCGStab + RILU class Test_SimpleSolveFinleyRect_Order1_Trilinos_BICGSTAB_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_BICGSTAB_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_BICGSTAB_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_BICGSTAB_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.BICGSTAB self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain ### PCG + RILU class Test_SimpleSolveFinleyRect_Order1_Trilinos_PCG_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_PCG_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_PCG_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_PCG_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain ### TFQMR + RILU class Test_SimpleSolveFinleyRect_Order1_Trilinos_TFQMR_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_TFQMR_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_TFQMR_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_TFQMR_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.TFQMR self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain ### MINRES + RILU class Test_SimpleSolveFinleyRect_Order1_Trilinos_MINRES_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_MINRES_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_MINRES_RILU(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_MINRES_RILU(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.MINRES self.preconditioner = SolverOptions.RILU def tearDown(self): del self.domain ### PCG + ILUT class Test_SimpleSolveFinleyRect_Order1_Trilinos_PCG_ILUT(SimpleSolveOnTrilinos): def setUp(self): self.domain = Rectangle(NE0, NE1, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.ILUT def tearDown(self): del self.domain class Test_SimpleSolveFinleyRect_Order2_Trilinos_PCG_ILUT(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Rectangle(NE0, NE1, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.ILUT def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order1_Trilinos_PCG_ILUT(SimpleSolveOnTrilinos): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 1, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.ILUT def tearDown(self): del self.domain class Test_SimpleSolveFinleyBrick_Order2_Trilinos_PCG_ILUT(SimpleSolveOnTrilinosOrder2): def setUp(self): self.domain = Brick(NE0, NE1, NE2, 2, optimize=OPTIMIZE) self.package = SolverOptions.TRILINOS self.method = SolverOptions.PCG self.preconditioner = SolverOptions.ILUT def tearDown(self): del self.domain if __name__ == '__main__': run_tests(__name__, exit_on_failure=True)