int main () { //===============================================================// //========= PROBLEM SETUP =======================// //===============================================================// int d = 2; int d_ = 2; int j0 = 2; //getchar(); /// Basis initialization TrialBasis_Time basis_per(d,d_,j0); TestBasis_Time basis_int(d,d_,j0); Basis_Space basis_intbc(d,0); basis_intbc.enforceBoundaryCondition<DirichletBC>(); Basis2D_Trial basis2d_trial(basis_per,basis_intbc); Basis2D_Test basis2d_test(basis_int,basis_intbc); /// Initialization of operators DenseVectorT no_singPts; // Bilinear Forms Convection1D_Time ConvectionBil_t(basis_per, basis_int); Identity1D_Time IdentityBil_t(basis_per, basis_int); Identity1D_Space IdentityBil_x(basis_intbc, basis_intbc); Laplace1D_Space LaplaceBil_x(basis_intbc, basis_intbc); Convection1D_Space ConvectionBil_x(basis_intbc, basis_intbc); RefConvection1D_Time RefConvectionBil_t(basis_per.refinementbasis, basis_int.refinementbasis); RefIdentity1D_Time RefIdentityBil_t(basis_per.refinementbasis, basis_int.refinementbasis); RefIdentity1D_Space RefIdentityBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); RefLaplace1D_Space RefLaplaceBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); RefConvection1D_Space RefConvectionBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); // Transposed Bilinear Forms TranspConvection1D_Time TranspConvectionBil_t(basis_per, basis_int); TranspIdentity1D_Time TranspIdentityBil_t(basis_per, basis_int); TranspIdentity1D_Space TranspIdentityBil_x(basis_intbc, basis_intbc); TranspLaplace1D_Space TranspLaplaceBil_x(basis_intbc, basis_intbc); TranspConvection1D_Space TranspConvectionBil_x(basis_intbc, basis_intbc); RefTranspConvection1D_Time RefTranspConvectionBil_t(basis_per.refinementbasis, basis_int.refinementbasis); RefTranspIdentity1D_Time RefTranspIdentityBil_t(basis_per.refinementbasis, basis_int.refinementbasis); RefTranspIdentity1D_Space RefTranspIdentityBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); RefTranspLaplace1D_Space RefTranspLaplaceBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); RefTranspConvection1D_Space RefTranspConvectionBil_x(basis_intbc.refinementbasis, basis_intbc.refinementbasis); /// Initialization of local operator LOp_Conv1D_Time lOp_Conv1D_t (basis_int, basis_per, RefConvectionBil_t, ConvectionBil_t); LOp_Id1D_Time lOp_Id1D_t (basis_int, basis_per, RefIdentityBil_t, IdentityBil_t); LOp_Id1D_Space lOp_Id1D_x (basis_intbc, basis_intbc, RefIdentityBil_x, IdentityBil_x); LOp_Lapl1D_Space lOp_Lapl1D_x (basis_intbc, basis_intbc, RefLaplaceBil_x, LaplaceBil_x); LOp_Conv1D_Space lOp_Conv1D_x (basis_intbc, basis_intbc, RefConvectionBil_x, ConvectionBil_x); LOpT_Conv1D_Time lOpT_Conv1D_t(basis_per, basis_int, RefTranspConvectionBil_t, TranspConvectionBil_t); LOpT_Id1D_Time lOpT_Id1D_t (basis_per, basis_int, RefTranspIdentityBil_t, TranspIdentityBil_t); LOpT_Id1D_Space lOpT_Id1D_x (basis_intbc, basis_intbc, RefTranspIdentityBil_x, TranspIdentityBil_x); LOpT_Lapl1D_Space lOpT_Lapl1D_x(basis_intbc, basis_intbc, RefTranspLaplaceBil_x, TranspLaplaceBil_x); LOpT_Conv1D_Space lOpT_Conv1D_x(basis_intbc, basis_intbc, RefTranspConvectionBil_x, TranspConvectionBil_x); LOp_Conv_Id_2D localConvectionIdentityOp2D (lOp_Conv1D_t, lOp_Id1D_x); LOp_Id_Id_2D localIdentityIdentityOp2D (lOp_Id1D_t, lOp_Id1D_x); LOp_Id_Lapl_2D localIdentityLaplaceOp2D (lOp_Id1D_t, lOp_Lapl1D_x); LOp_Id_Conv_2D localIdentityConvectionOp2D (lOp_Id1D_t, lOp_Conv1D_x); LOpT_Conv_Id_2D transpLocalConvectionIdentityOp2D (lOpT_Conv1D_t, lOpT_Id1D_x); LOpT_Id_Id_2D transpLocalIdentityIdentityOp2D (lOpT_Id1D_t, lOpT_Id1D_x); LOpT_Id_Lapl_2D transpLocalIdentityLaplaceOp2D (lOpT_Id1D_t, lOpT_Lapl1D_x); LOpT_Id_Conv_2D transpLocalIdentityConvectionOp2D (lOpT_Id1D_t, lOpT_Conv1D_x); localConvectionIdentityOp2D.setJ(9); localIdentityIdentityOp2D.setJ(9); localIdentityLaplaceOp2D.setJ(9); localIdentityConvectionOp2D.setJ(9); transpLocalConvectionIdentityOp2D.setJ(9); transpLocalIdentityIdentityOp2D.setJ(9); transpLocalIdentityLaplaceOp2D.setJ(9); transpLocalIdentityConvectionOp2D.setJ(9); // Affine Decompositions: // Left Hand Side -> mu's are _NOT_ evaluated (only global consts!!) vector<ThetaStructure<ParamType>::ThetaFct> lhs_theta_fcts; lhs_theta_fcts.push_back(no_theta); lhs_theta_fcts.push_back(theta_lapl); lhs_theta_fcts.push_back(theta_conv); lhs_theta_fcts.push_back(theta_reac); ThetaStructure<ParamType> lhs_theta(lhs_theta_fcts); vector<AbstractLocalOperator2D<T>* > lhs_ops, lhs_opsT; lhs_ops.push_back(&localConvectionIdentityOp2D); lhs_ops.push_back(&localIdentityLaplaceOp2D); lhs_ops.push_back(&localIdentityConvectionOp2D); lhs_ops.push_back(&localIdentityIdentityOp2D); lhs_opsT.push_back(&transpLocalConvectionIdentityOp2D); lhs_opsT.push_back(&transpLocalIdentityLaplaceOp2D); lhs_opsT.push_back(&transpLocalIdentityConvectionOp2D); lhs_opsT.push_back(&transpLocalIdentityIdentityOp2D); Affine_Op_2D affine_lhs(lhs_theta, lhs_ops); Affine_Op_2D affine_lhs_T(lhs_theta, lhs_opsT); /// Initialization of preconditioner LeftPrec2D leftPrec(basis2d_test); RightPrec2D rightPrec(basis2d_trial); NoPrec2D noPrec; /// Initialization of rhs /// Right Hand Side: /// No Singular Supports in both dimensions int n = 20; DenseVectorT sing_support_t(n+1), sing_support_x(n+1); int i0 = sing_support_t.firstIndex(); for(int i = 0; i <= n; ++i){ sing_support_t(i0 + i) = i/(double)n; sing_support_x(i0 + i) = i/(double)n; } /// Forcing Functions Function2D<T> F_fct(curve, sing_support_t, sing_support_x); RhsIntegral2D rhs(basis2d_test, F_fct, 10); AdaptiveRhs2D F(rhs,noPrec); //===============================================================// //=============== AWGM =========================================// //===============================================================// /* AWGM PG Parameters Default Values double tol = 5e-03; double alpha = 0.7; size_t max_its = 100; size_t max_basissize = 400000; bool reset_res = false; StableExpansionVersion stable_exp_u = FullExpansion; StableExpansionVersion stable_exp_res = FullExpansion; ResidualConstruction res_construction = SimpleStableExpansion; bool print_info = true; bool verbose = true; bool plot_solution = false; bool verbose_extra = false; //(print added wavelet indizes) size_t hashmapsize_trial = 10; size_t hashmapsize_test = 10; std::string info_filename = "awgm_cgls_conv_info.txt"; std::string plot_filename = "awgm_cgls_u_plot"; bool write_intermediary_solutions = false; std::string intermediary_solutions_filename = "awgm_cgls_u"; */ /* IS Parameters Default Values bool adaptive_tol = true; size_t max_its = 100; double init_tol = 0.001; double res_reduction = 0.01; double absolute_tol = 1e-8; bool verbose = true; */ // MultitreeAWGM with default values //MT_AWGM multitree_awgm(basis2d_trial, basis2d_test, localOperator2D, transLocalOperator2D, // F, rightPrec, leftPrec); // If you want other parameters AWGM_PG_Parameters awgm_parameters; IS_Parameters cgls_parameters; // .... set them here: awgm_parameters.tol = 0.0001; awgm_parameters.stable_exp_u = OnlyTemporalHWExpansion; //WoMixedHWExpansion; awgm_parameters.stable_exp_res = OnlyTemporalHWExpansion; awgm_parameters.res_construction = DoubleStableExpansion; // ParallelMTCones awgm_parameters.plot_solution = false; awgm_parameters.verbose_extra = true; awgm_parameters.info_filename = "awgm_ExCDRCurve_mw_DoubleExp_conv_info.txt"; awgm_parameters.plot_filename = "awgm_ExCDRCurve_mw_DoubleExp_u_plot"; awgm_parameters.write_intermediary_solutions = true; awgm_parameters.intermediary_solutions_filename = "awgm_ExCDRCurve_mw_DoubleExp_u_Iteration"; cgls_parameters.adaptive_tol = true; cgls_parameters.init_tol = 1e-4; cgls_parameters.res_reduction = 0.01; cgls_parameters.max_its = 700; // MT_AWGM multitree_awgm(basis2d_trial, basis2d_test, localOperator2D, transpLocalOperator2D, // F, rightPrec, leftPrec, awgm_parameters, cgls_parameters); MT_AWGM multitree_awgm(basis2d_trial, basis2d_test, affine_lhs, affine_lhs_T, F, rightPrec, leftPrec, awgm_parameters, cgls_parameters); // Parameter is ignored anyway!! ParamType mu = {{0., -9.}}; lhs_theta.set_param(mu); multitree_awgm.awgm_params.print(); multitree_awgm.is_params.print(); multitree_awgm.set_sol(dummy); /// Initialization of solution vector and initial index sets Coefficients<Lexicographical,T,Index2D> u; T gamma = 0.2; IndexSet<Index2D> LambdaTrial, LambdaTest; getSparseGridIndexSet(basis2d_trial,LambdaTrial,2,0,gamma); getSparseGridIndexSet(basis2d_test ,LambdaTest ,2,1,gamma); Timer time; time.start(); multitree_awgm.solve(u, LambdaTrial, LambdaTest); time.stop(); cout << "Solution took " << time.elapsed() << " seconds" << endl; saveCoeffVector2D(u, basis2d_trial, "awgm_ExCDRCurve_mw_DoubleExp_u.txt"); return 0; }
int main () { //===============================================================// //========= PROBLEM SETUP =======================// //===============================================================// int d = 4; int j0 = 2; cout << "Wavelets: d = " << d << ", j0 = " << j0 << endl << endl; /// Basis initialization _Basis basis(d, j0); Basis2D basis2d(basis, basis); /* for (int i = 1; i<= 6; ++i) { DataType u; std::string snapshot; std::string plot; snapshot = "training_data_toy/snap/snap_"; plot = "plot_"; snapshot += std::to_string(i); plot += std::to_string(i); snapshot += ".txt"; std::cout << "Reading snapshot from file " << snapshot << std::endl; std::cout << "Printing plot to file " << plot << std::endl; readCoeffVector2D(u, snapshot.c_str()); precon _p; plot2D(basis2d, u, _p, zero, 0., 1., 0., 1., 1e-02, plot.c_str()); } exit(0); */ /// Initialization of operators DenseVectorT no_singPts; Function<T> zero_Fct(zero_fct,no_singPts); // Bilinear Forms Identity1D IdentityBil(basis); Laplace1D LaplaceBil(basis); RefIdentity1D RefIdentityBil(basis.refinementbasis); RefLaplace1D RefLaplaceBil(basis.refinementbasis); /// Initialization of local operator LOp_Id1D lOp_Id1D (basis, basis, RefIdentityBil, IdentityBil); LOp_Lapl1D lOp_Lapl1D (basis, basis, RefLaplaceBil, LaplaceBil); LOp_Id_Id_2D localIdentityIdentityOp2D (lOp_Id1D, lOp_Id1D); LOp_Id_Lapl_2D localIdentityLaplaceOp2D (lOp_Id1D, lOp_Lapl1D); LOp_Lapl_Id_2D localLaplaceIdentityOp2D (lOp_Lapl1D, lOp_Id1D); localIdentityIdentityOp2D.setJ(9); localIdentityLaplaceOp2D.setJ(9); localLaplaceIdentityOp2D.setJ(9); /// Initialization of preconditioner Prec2D prec(basis2d); NoPrec2D noPrec; /// Initialization of rhs /// Right Hand Side: /// No Singular Supports in both dimensions DenseVectorT sing_support; /// Forcing Functions Function2D<T> F1_Fct(f1, sing_support, sing_support); Function2D<T> F2_Fct(f2, sing_support, sing_support); Function2D<T> F3_Fct(f3, sing_support, sing_support); Function2D<T> F4_Fct(f4, sing_support, sing_support); Function2D<T> F5_Fct(f5, sing_support, sing_support); Function2D<T> F6_Fct(f6, sing_support, sing_support); Function2D<T> F7_Fct(f7, sing_support, sing_support); Function2D<T> F8_Fct(f8, sing_support, sing_support); Function2D<T> F9_Fct(f9, sing_support, sing_support); Function2D<T> F10_Fct(f10, sing_support, sing_support); Function2D<T> F11_Fct(f11, sing_support, sing_support); Function2D<T> F12_Fct(f12, sing_support, sing_support); Function2D<T> F13_Fct(f13, sing_support, sing_support); Function2D<T> F14_Fct(f14, sing_support, sing_support); Function2D<T> F15_Fct(f15, sing_support, sing_support); Function2D<T> F16_Fct(f16, sing_support, sing_support); Function2D<T> F17_Fct(f17, sing_support, sing_support); Function2D<T> F18_Fct(f18, sing_support, sing_support); Function2D<T> F19_Fct(f19, sing_support, sing_support); Function2D<T> F20_Fct(f20, sing_support, sing_support); Function2D<T> F21_Fct(f21, sing_support, sing_support); Function2D<T> F22_Fct(f22, sing_support, sing_support); Function2D<T> F23_Fct(f23, sing_support, sing_support); Function2D<T> F24_Fct(f24, sing_support, sing_support); Function2D<T> F25_Fct(f25, sing_support, sing_support); Function2D<T> F26_Fct(f26, sing_support, sing_support); Function2D<T> F27_Fct(f27, sing_support, sing_support); Function2D<T> F28_Fct(f28, sing_support, sing_support); Function2D<T> F29_Fct(f29, sing_support, sing_support); Function2D<T> F30_Fct(f30, sing_support, sing_support); Function2D<T> F31_Fct(f31, sing_support, sing_support); Function2D<T> F32_Fct(f32, sing_support, sing_support); Function2D<T> F33_Fct(f33, sing_support, sing_support); Function2D<T> F34_Fct(f34, sing_support, sing_support); Function2D<T> F35_Fct(f35, sing_support, sing_support); Function2D<T> F36_Fct(f36, sing_support, sing_support); Function2D<T> F37_Fct(f37, sing_support, sing_support); Function2D<T> F38_Fct(f38, sing_support, sing_support); Function2D<T> F39_Fct(f39, sing_support, sing_support); Function2D<T> F40_Fct(f40, sing_support, sing_support); Function2D<T> F41_Fct(f41, sing_support, sing_support); Function2D<T> F42_Fct(f42, sing_support, sing_support); Function2D<T> F43_Fct(f43, sing_support, sing_support); Function2D<T> F44_Fct(f44, sing_support, sing_support); Function2D<T> F45_Fct(f45, sing_support, sing_support); Function2D<T> F46_Fct(f46, sing_support, sing_support); Function2D<T> F47_Fct(f47, sing_support, sing_support); Function2D<T> F48_Fct(f48, sing_support, sing_support); Function2D<T> F49_Fct(f49, sing_support, sing_support); RhsIntegral2D rhs_1(basis2d, F1_Fct, 100); RhsIntegral2D rhs_2(basis2d, F2_Fct, 100); RhsIntegral2D rhs_3(basis2d, F3_Fct, 100); RhsIntegral2D rhs_4(basis2d, F4_Fct, 100); RhsIntegral2D rhs_5(basis2d, F5_Fct, 100); RhsIntegral2D rhs_6(basis2d, F6_Fct, 100); RhsIntegral2D rhs_7(basis2d, F7_Fct, 100); RhsIntegral2D rhs_8(basis2d, F8_Fct, 100); RhsIntegral2D rhs_9(basis2d, F9_Fct, 100); RhsIntegral2D rhs_10(basis2d, F10_Fct, 100); RhsIntegral2D rhs_11(basis2d, F11_Fct, 100); RhsIntegral2D rhs_12(basis2d, F12_Fct, 100); RhsIntegral2D rhs_13(basis2d, F13_Fct, 100); RhsIntegral2D rhs_14(basis2d, F14_Fct, 100); RhsIntegral2D rhs_15(basis2d, F15_Fct, 100); RhsIntegral2D rhs_16(basis2d, F16_Fct, 100); RhsIntegral2D rhs_17(basis2d, F17_Fct, 100); RhsIntegral2D rhs_18(basis2d, F18_Fct, 100); RhsIntegral2D rhs_19(basis2d, F19_Fct, 100); RhsIntegral2D rhs_20(basis2d, F20_Fct, 100); RhsIntegral2D rhs_21(basis2d, F21_Fct, 100); RhsIntegral2D rhs_22(basis2d, F22_Fct, 100); RhsIntegral2D rhs_23(basis2d, F23_Fct, 100); RhsIntegral2D rhs_24(basis2d, F24_Fct, 100); RhsIntegral2D rhs_25(basis2d, F25_Fct, 100); RhsIntegral2D rhs_26(basis2d, F26_Fct, 100); RhsIntegral2D rhs_27(basis2d, F27_Fct, 100); RhsIntegral2D rhs_28(basis2d, F28_Fct, 100); RhsIntegral2D rhs_29(basis2d, F29_Fct, 100); RhsIntegral2D rhs_30(basis2d, F30_Fct, 100); RhsIntegral2D rhs_31(basis2d, F31_Fct, 100); RhsIntegral2D rhs_32(basis2d, F32_Fct, 100); RhsIntegral2D rhs_33(basis2d, F33_Fct, 100); RhsIntegral2D rhs_34(basis2d, F34_Fct, 100); RhsIntegral2D rhs_35(basis2d, F35_Fct, 100); RhsIntegral2D rhs_36(basis2d, F36_Fct, 100); RhsIntegral2D rhs_37(basis2d, F37_Fct, 100); RhsIntegral2D rhs_38(basis2d, F38_Fct, 100); RhsIntegral2D rhs_39(basis2d, F39_Fct, 100); RhsIntegral2D rhs_40(basis2d, F40_Fct, 100); RhsIntegral2D rhs_41(basis2d, F41_Fct, 100); RhsIntegral2D rhs_42(basis2d, F42_Fct, 100); RhsIntegral2D rhs_43(basis2d, F43_Fct, 100); RhsIntegral2D rhs_44(basis2d, F44_Fct, 100); RhsIntegral2D rhs_45(basis2d, F45_Fct, 100); RhsIntegral2D rhs_46(basis2d, F46_Fct, 100); RhsIntegral2D rhs_47(basis2d, F47_Fct, 100); RhsIntegral2D rhs_48(basis2d, F48_Fct, 100); RhsIntegral2D rhs_49(basis2d, F49_Fct, 100); Rhs F1(rhs_1,noPrec); Rhs F2(rhs_2,noPrec); Rhs F3(rhs_3,noPrec); Rhs F4(rhs_4,noPrec); Rhs F5(rhs_5,noPrec); Rhs F6(rhs_6,noPrec); Rhs F7(rhs_7,noPrec); Rhs F8(rhs_8,noPrec); Rhs F9(rhs_9,noPrec); Rhs F10(rhs_10,noPrec); Rhs F11(rhs_11,noPrec); Rhs F12(rhs_12,noPrec); Rhs F13(rhs_13,noPrec); Rhs F14(rhs_14,noPrec); Rhs F15(rhs_15,noPrec); Rhs F16(rhs_16,noPrec); Rhs F17(rhs_17,noPrec); Rhs F18(rhs_18,noPrec); Rhs F19(rhs_19,noPrec); Rhs F20(rhs_20,noPrec); Rhs F21(rhs_21,noPrec); Rhs F22(rhs_22,noPrec); Rhs F23(rhs_23,noPrec); Rhs F24(rhs_24,noPrec); Rhs F25(rhs_25,noPrec); Rhs F26(rhs_26,noPrec); Rhs F27(rhs_27,noPrec); Rhs F28(rhs_28,noPrec); Rhs F29(rhs_29,noPrec); Rhs F30(rhs_30,noPrec); Rhs F31(rhs_31,noPrec); Rhs F32(rhs_32,noPrec); Rhs F33(rhs_33,noPrec); Rhs F34(rhs_34,noPrec); Rhs F35(rhs_35,noPrec); Rhs F36(rhs_36,noPrec); Rhs F37(rhs_37,noPrec); Rhs F38(rhs_38,noPrec); Rhs F39(rhs_39,noPrec); Rhs F40(rhs_40,noPrec); Rhs F41(rhs_41,noPrec); Rhs F42(rhs_42,noPrec); Rhs F43(rhs_43,noPrec); Rhs F44(rhs_44,noPrec); Rhs F45(rhs_45,noPrec); Rhs F46(rhs_46,noPrec); Rhs F47(rhs_47,noPrec); Rhs F48(rhs_48,noPrec); Rhs F49(rhs_49,noPrec); //===============================================================// //=============== RB SETUP =====================================// //===============================================================// // Affine Decompositions: // Left Hand Side vector<ThetaStructure<ParamType>::ThetaFct> lhs_theta_fcts; lhs_theta_fcts.push_back(no_theta); ThetaStructure<ParamType> lhs_theta(lhs_theta_fcts); vector<AbstractLocalOperator2D<T>* > lhs_ops; lhs_ops.push_back(&localLaplaceIdentityOp2D); lhs_ops.push_back(&localIdentityLaplaceOp2D); Flex_COp_2D A(lhs_ops); vector<Flex_COp_2D*> ops_vec; ops_vec.push_back(&A); Affine_Op_2D affine_lhs(lhs_theta, ops_vec); H1_InnProd_2D innprod(localIdentityIdentityOp2D, localLaplaceIdentityOp2D, localIdentityLaplaceOp2D); // Right Hand Side vector<ThetaStructure<ParamType>::ThetaFct> rhs_theta_fcts; rhs_theta_fcts.push_back(theta_chi_1); rhs_theta_fcts.push_back(theta_chi_2); rhs_theta_fcts.push_back(theta_chi_3); rhs_theta_fcts.push_back(theta_chi_4); rhs_theta_fcts.push_back(theta_chi_5); rhs_theta_fcts.push_back(theta_chi_6); rhs_theta_fcts.push_back(theta_chi_7); rhs_theta_fcts.push_back(theta_chi_8); rhs_theta_fcts.push_back(theta_chi_9); rhs_theta_fcts.push_back(theta_chi_10); rhs_theta_fcts.push_back(theta_chi_11); rhs_theta_fcts.push_back(theta_chi_12); rhs_theta_fcts.push_back(theta_chi_13); rhs_theta_fcts.push_back(theta_chi_14); rhs_theta_fcts.push_back(theta_chi_15); rhs_theta_fcts.push_back(theta_chi_16); rhs_theta_fcts.push_back(theta_chi_17); rhs_theta_fcts.push_back(theta_chi_18); rhs_theta_fcts.push_back(theta_chi_19); rhs_theta_fcts.push_back(theta_chi_20); rhs_theta_fcts.push_back(theta_chi_21); rhs_theta_fcts.push_back(theta_chi_22); rhs_theta_fcts.push_back(theta_chi_23); rhs_theta_fcts.push_back(theta_chi_24); rhs_theta_fcts.push_back(theta_chi_25); rhs_theta_fcts.push_back(theta_chi_26); rhs_theta_fcts.push_back(theta_chi_27); rhs_theta_fcts.push_back(theta_chi_28); rhs_theta_fcts.push_back(theta_chi_29); rhs_theta_fcts.push_back(theta_chi_30); rhs_theta_fcts.push_back(theta_chi_31); rhs_theta_fcts.push_back(theta_chi_32); rhs_theta_fcts.push_back(theta_chi_33); rhs_theta_fcts.push_back(theta_chi_34); rhs_theta_fcts.push_back(theta_chi_35); rhs_theta_fcts.push_back(theta_chi_36); rhs_theta_fcts.push_back(theta_chi_37); rhs_theta_fcts.push_back(theta_chi_38); rhs_theta_fcts.push_back(theta_chi_39); rhs_theta_fcts.push_back(theta_chi_40); rhs_theta_fcts.push_back(theta_chi_41); rhs_theta_fcts.push_back(theta_chi_42); rhs_theta_fcts.push_back(theta_chi_43); rhs_theta_fcts.push_back(theta_chi_44); rhs_theta_fcts.push_back(theta_chi_45); rhs_theta_fcts.push_back(theta_chi_46); rhs_theta_fcts.push_back(theta_chi_47); rhs_theta_fcts.push_back(theta_chi_48); rhs_theta_fcts.push_back(theta_chi_49); ThetaStructure<ParamType> rhs_theta(rhs_theta_fcts); vector<Rhs*> rhs_fcts; rhs_fcts.push_back(&F1); rhs_fcts.push_back(&F2); rhs_fcts.push_back(&F3); rhs_fcts.push_back(&F4); rhs_fcts.push_back(&F5); rhs_fcts.push_back(&F6); rhs_fcts.push_back(&F7); rhs_fcts.push_back(&F8); rhs_fcts.push_back(&F9); rhs_fcts.push_back(&F10); rhs_fcts.push_back(&F11); rhs_fcts.push_back(&F12); rhs_fcts.push_back(&F13); rhs_fcts.push_back(&F14); rhs_fcts.push_back(&F15); rhs_fcts.push_back(&F16); rhs_fcts.push_back(&F17); rhs_fcts.push_back(&F18); rhs_fcts.push_back(&F19); rhs_fcts.push_back(&F20); rhs_fcts.push_back(&F21); rhs_fcts.push_back(&F22); rhs_fcts.push_back(&F23); rhs_fcts.push_back(&F24); rhs_fcts.push_back(&F25); rhs_fcts.push_back(&F26); rhs_fcts.push_back(&F27); rhs_fcts.push_back(&F28); rhs_fcts.push_back(&F29); rhs_fcts.push_back(&F30); rhs_fcts.push_back(&F31); rhs_fcts.push_back(&F32); rhs_fcts.push_back(&F33); rhs_fcts.push_back(&F34); rhs_fcts.push_back(&F35); rhs_fcts.push_back(&F36); rhs_fcts.push_back(&F37); rhs_fcts.push_back(&F38); rhs_fcts.push_back(&F39); rhs_fcts.push_back(&F40); rhs_fcts.push_back(&F41); rhs_fcts.push_back(&F42); rhs_fcts.push_back(&F43); rhs_fcts.push_back(&F44); rhs_fcts.push_back(&F45); rhs_fcts.push_back(&F46); rhs_fcts.push_back(&F47); rhs_fcts.push_back(&F48); rhs_fcts.push_back(&F49); Affine_Rhs_2D affine_rhs(rhs_theta, rhs_fcts); RieszF_Rhs_2D rieszF_rhs(rhs_fcts); RieszA_Rhs_2D rieszA_rhs(ops_vec); // Right Hand Sides for direct Riesz Representor AffineA_Rhs_2D affineA_rhs(lhs_theta, lhs_ops); RieszRes_Rhs_2D rieszRes_rhs(affineA_rhs, affine_rhs); //===============================================================// //=============== AWGM =========================================// //===============================================================// IS_Parameters is_parameters; AWGM_Parameters awgm_truth_parameters, awgm_riesz_f_parameters, awgm_riesz_a_parameters, awgm_riesz_res_parameters; awgm_truth_parameters.max_its = 1e+03; is_parameters.adaptive_tol = true; is_parameters.init_tol = 0.0001; is_parameters.res_reduction = 0.01; //----------- Solver ---------------- // T gamma = 0.2; IndexSet<Index2D> Lambda; getSparseGridIndexSet(basis2d, Lambda, 1, 0, gamma); MT_AWGM_Truth awgm_u(basis2d, affine_lhs, affine_rhs, prec, awgm_truth_parameters, is_parameters); awgm_u.set_sol(dummy); awgm_u.awgm_params.tol = 1e-04; awgm_u.awgm_params.max_basissize = 1e+06; awgm_u.set_initial_indexset(Lambda); MT_AWGM_Riesz_F awgm_rieszF(basis2d, innprod, rieszF_rhs, prec, awgm_riesz_f_parameters, is_parameters); awgm_rieszF.set_sol(dummy); awgm_rieszF.set_initial_indexset(Lambda); awgm_rieszF.awgm_params.tol = 5e-04; awgm_rieszF.awgm_params.info_filename = "stempel_rieszF_conv_info.txt"; MT_AWGM_Riesz_A awgm_rieszA(basis2d, innprod, rieszA_rhs, prec, awgm_riesz_a_parameters, is_parameters); awgm_rieszA.set_sol(dummy); awgm_rieszA.set_initial_indexset(Lambda); awgm_rieszA.awgm_params.tol = 5e-04; awgm_rieszA.awgm_params.info_filename = "stempel_rieszA_conv_info.txt"; MT_AWGM_Riesz_Res awgm_rieszRes(basis2d, innprod, rieszRes_rhs, prec, awgm_riesz_res_parameters, is_parameters); awgm_rieszRes.set_sol(dummy); awgm_rieszRes.set_initial_indexset(Lambda); awgm_rieszRes.awgm_params.tol = 5e-04; awgm_rieszRes.awgm_params.print_info = false; MTTruthSolver rb_truth(awgm_u, awgm_rieszF, awgm_rieszA, &awgm_rieszRes, innprod, affine_lhs, rieszF_rhs); //----------- RB System ---------------- // RB_Model rb_system(lhs_theta, rhs_theta); rb_system.rb_params.ref_param = {{1.}}; rb_system.rb_params.call = call_cg; //----------- RB Base ---------------- // RB_BaseModel rb_base(rb_system, rb_truth, Lambda); ParamType mu_min = {{0}}; ParamType mu_max = {{1}}; rb_base.greedy_params.training_type = weak; rb_base.greedy_params.tol = 1e-05; rb_base.greedy_params.min_param = mu_min; rb_base.greedy_params.max_param = mu_max; rb_base.greedy_params.Nmax = 6; rb_base.greedy_params.nb_training_params = {{nb_stempel}}; rb_base.greedy_params.log_scaling = {{0}}; rb_base.greedy_params.print_file = "toy_greedy_info.txt"; rb_base.greedy_params.trainingdata_folder = "training_data_toy"; rb_base.greedy_params.print_paramset = true; rb_base.greedy_params.erase_snapshot_params = false; rb_base.greedy_params.orthonormalize_bfs = true; rb_base.greedy_params.tighten_tol = true; rb_base.greedy_params.snapshot_tol_red_crit = repeated_param; rb_base.greedy_params.tighten_tol_rieszA = false; rb_base.greedy_params.tighten_tol_rieszF = false; rb_base.greedy_params.tighten_tol_reduction = 0.1, rb_base.greedy_params.update_snapshot = true; rb_base.greedy_params.update_rieszF = false; rb_base.greedy_params.update_rieszA = false; rb_base.greedy_params.test_estimator_equivalence = false; rb_base.greedy_params.write_direct_representors = false; rb_base.greedy_params.riesz_constant_X = 5.6; rb_base.greedy_params.riesz_constant_Y = 2; cout << "Parameters Training: " << std::endl << std::endl; rb_base.greedy_params.print(); rb_system.rb_params.print(); cout << "Parameters Truth Solver: " << std::endl << std::endl; awgm_u.awgm_params.print(); awgm_u.is_params.print(); cout << "Parameters Riesz Solver F : " << std::endl << std::endl; awgm_rieszF.awgm_params.print(); cout << "Parameters Riesz Solver A : " << std::endl << std::endl; awgm_rieszA.awgm_params.print(); cout << "Parameters Riesz Solver Res : " << std::endl << std::endl; awgm_rieszRes.awgm_params.print(); //rb_system.read_rb_data("training_data_toy"); //rb_base.read_basisfunctions("training_data_toy/bf"); /*for (int i=0; i<rb_base.n_bf(); ++i) { std::cout << " i = " << i+1 << std::endl; std::cout << rb_base.rb_basisfunctions[i].size() << std::endl; }*/ //rb_base.read_rieszrepresentors("training_data_toy/representors"); //rb_base.calculate_Riesz_RHS_information(true); //rb_base.calc_rb_data(); //rb_system.write_rb_data("training_data_toy"); rb_base.train_Greedy(); std::cout << "toy_offline exited normally\n"; return 0; }