2013-08-08 05:34:54 +08:00
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#include "FieldEulerIntegrator.h"
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#include "ATC_Coupling.h"
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#include "FE_Engine.h"
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#include "PhysicsModel.h"
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2014-11-21 02:59:03 +08:00
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#include "PrescribedDataManager.h"
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//#include "GMRES.h"
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//#include "CG.h"
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2013-08-08 05:34:54 +08:00
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#include "ImplicitSolveOperator.h"
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2014-11-21 02:59:03 +08:00
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#include "MatrixDef.h"
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#include "LinearSolver.h"
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2013-08-08 05:34:54 +08:00
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namespace ATC {
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// ====================================================================
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// FieldEulerIntegrator
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// ====================================================================
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FieldEulerIntegrator::FieldEulerIntegrator(
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const FieldName fieldName,
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const PhysicsModel * physicsModel,
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/*const*/ FE_Engine * feEngine,
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/*const*/ ATC_Coupling * atc,
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const Array2D< bool > & rhsMask // copy
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)
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: atc_(atc),
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feEngine_(feEngine),
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physicsModel_(physicsModel),
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fieldName_(fieldName),
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rhsMask_(rhsMask)
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{
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nNodes_ = feEngine->num_nodes();
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}
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// ====================================================================
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// FieldImplicitIntegrator
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// ====================================================================
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FieldExplicitEulerIntegrator::FieldExplicitEulerIntegrator(
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const FieldName fieldName,
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const PhysicsModel * physicsModel,
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/*const*/ FE_Engine * feEngine,
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/*const*/ ATC_Coupling * atc,
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const Array2D< bool > & rhsMask // copy
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) : FieldEulerIntegrator(fieldName,physicsModel,feEngine,atc,rhsMask)
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{
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}
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// --------------------------------------------------------------------
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// update
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// --------------------------------------------------------------------
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void FieldExplicitEulerIntegrator::update(const double dt, double time,
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FIELDS & fields, FIELDS & rhs)
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{
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// write and add update mass matrix to handled time variation
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// update mass matrix to be consistent/lumped, and handle this in apply_inverse_mass_matrix
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atc_->compute_rhs_vector(rhsMask_, fields, rhs,
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FULL_DOMAIN, physicsModel_);
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DENS_MAT & myRhs(rhs[fieldName_].set_quantity());
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atc_->apply_inverse_mass_matrix(myRhs,fieldName_);
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fields[fieldName_] += dt*myRhs;
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}
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// ====================================================================
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// FieldImplicitEulerIntegrator
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// ====================================================================
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FieldImplicitEulerIntegrator::FieldImplicitEulerIntegrator(
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const FieldName fieldName,
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const PhysicsModel * physicsModel,
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/*const*/ FE_Engine * feEngine,
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/*const*/ ATC_Coupling * atc,
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const Array2D< bool > & rhsMask, // copy
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const double alpha
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) : FieldEulerIntegrator(fieldName,physicsModel,feEngine,atc,rhsMask),
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alpha_(alpha),
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dT_(1.0e-6),
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maxRestarts_(50),
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maxIterations_(1000),
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tol_(1.0e-8)
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{
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}
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// --------------------------------------------------------------------
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// update
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// --------------------------------------------------------------------
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void FieldImplicitEulerIntegrator::update(const double dt, double time,
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FIELDS & fields, FIELDS & rhs)
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{ // solver handles bcs
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2014-11-21 02:59:03 +08:00
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FieldImplicitSolveOperator solver(atc_,
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2013-08-08 05:34:54 +08:00
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fields, fieldName_, rhsMask_, physicsModel_,
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time, dt, alpha_);
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2014-11-21 02:59:03 +08:00
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DiagonalMatrix<double> preconditioner = solver.preconditioner();
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DENS_VEC rT = solver.r();
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2013-08-08 05:34:54 +08:00
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DENS_VEC dT(nNodes_); dT = dT_;
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DENS_MAT H(maxRestarts_+1, maxRestarts_);
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double tol = tol_; // tol returns the residual
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int iterations = maxIterations_; // iterations returns number of iterations
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int restarts = maxRestarts_;
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int convergence = GMRES(solver,
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2014-11-21 02:59:03 +08:00
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dT, rT, preconditioner, H, restarts, iterations, tol);
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2013-08-08 05:34:54 +08:00
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if (convergence != 0) {
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throw ATC_Error(field_to_string(fieldName_) + " evolution did not converge");
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}
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2014-11-21 02:59:03 +08:00
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solver.solution(dT,fields[fieldName_].set_quantity());
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2013-08-08 05:34:54 +08:00
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}
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2014-11-21 02:59:03 +08:00
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// ====================================================================
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// FieldImplicitDirectEulerIntegrator
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// ====================================================================
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FieldImplicitDirectEulerIntegrator::FieldImplicitDirectEulerIntegrator(
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const FieldName fieldName,
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const PhysicsModel * physicsModel,
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/*const*/ FE_Engine * feEngine,
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/*const*/ ATC_Coupling * atc,
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const Array2D< bool > & rhsMask, // copy
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const double alpha
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) : FieldEulerIntegrator(fieldName,physicsModel,feEngine,atc,rhsMask),
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alpha_(alpha),solver_(NULL)
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{
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rhsMask_(fieldName_,FLUX) = false; // handle laplacian term with stiffness
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const BC_SET & bcs = (atc_->prescribed_data_manager()->bcs(fieldName_))[0];
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solver_ = new LinearSolver(_lhsMK_,bcs);
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solver_->allow_reinitialization();
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}
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FieldImplicitDirectEulerIntegrator::~FieldImplicitDirectEulerIntegrator()
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{
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if (solver_) delete solver_;
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}
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// --------------------------------------------------------------------
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// initialize
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// --------------------------------------------------------------------
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void FieldImplicitDirectEulerIntegrator::initialize(const double dt, double time,
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FIELDS & fields)
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{
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std::pair<FieldName,FieldName> p(fieldName_,fieldName_);
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Array2D <bool> rmask = atc_->rhs_mask();
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rmask(fieldName_,FLUX) = true;
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atc_->tangent_matrix(p,rmask,physicsModel_,_K_);
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_lhsMK_ = (1./dt)*(_M_)- alpha_*(_K_);
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_rhsMK_ = (1./dt)*(_M_)+(1.+alpha_)*(_K_);
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}
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// --------------------------------------------------------------------
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// update
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// --------------------------------------------------------------------
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void FieldImplicitDirectEulerIntegrator::update(const double dt, double time,
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FIELDS & fields, FIELDS & rhs)
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{
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atc_->compute_rhs_vector(rhsMask_, fields, rhs,
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FULL_DOMAIN, physicsModel_);
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CLON_VEC myRhs = column( rhs[fieldName_].set_quantity(),0);
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CLON_VEC myField = column(fields[fieldName_].set_quantity(),0);
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myRhs += _rhsMK_*myField; // f = (1/dt M + (1+alpha) K) T + f
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solver_->solve(myField,myRhs); // (1/dt M -alpha K)^-1 f
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}
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2013-08-08 05:34:54 +08:00
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} // namespace ATC
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