forked from lijiext/lammps
161 lines
5.4 KiB
C++
161 lines
5.4 KiB
C++
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// Header file for this class
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#include "ImplicitSolveOperator.h"
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// Other ATC includes
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#include "ATC_Transfer.h"
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#include "FE_Engine.h"
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#include "PhysicsModel.h"
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#include "PrescribedDataManager.h"
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namespace ATC {
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// --------------------------------------------------------------------
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// --------------------------------------------------------------------
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// ImplicitSolveOperator
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// --------------------------------------------------------------------
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// --------------------------------------------------------------------
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ImplicitSolveOperator::
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ImplicitSolveOperator(ATC_Transfer * atcTransfer,
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/*const*/ FE_Engine * feEngine,
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const PhysicsModel * physicsModel)
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: atcTransfer_(atcTransfer),
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feEngine_(feEngine),
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physicsModel_(physicsModel)
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{
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// Nothing else to do here
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}
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// --------------------------------------------------------------------
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// --------------------------------------------------------------------
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// FieldImplicitSolveOperator
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// --------------------------------------------------------------------
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// --------------------------------------------------------------------
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FieldImplicitSolveOperator::
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FieldImplicitSolveOperator(ATC_Transfer * atcTransfer,
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/*const*/ FE_Engine * feEngine,
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FIELDS & fields,
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const FieldName fieldName,
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const Array2D< bool > & rhsMask,
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const PhysicsModel * physicsModel,
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double simTime,
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double dt,
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double alpha)
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: ImplicitSolveOperator(atcTransfer, feEngine, physicsModel),
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fields_(fields), // ref to fields
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fieldName_(fieldName),
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simTime_(simTime),
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dt_(dt),
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alpha_(alpha),
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epsilon0_(1.0e-8)
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{
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// find field associated with ODE
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rhsMask_.reset(NUM_FIELDS,NUM_FLUX);
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rhsMask_ = false;
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for (int i = 0; i < rhsMask.nCols(); i++) {
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rhsMask_(fieldName_,i) = rhsMask(fieldName_,i);
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}
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massMask_.reset(1);
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massMask_(0) = fieldName_;
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// Save off current field
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TnVect_ = column(fields_[fieldName_],0); // NOTE assuming 1 dof ?
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// Allocate vectors for fields and rhs
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int nNodes = atcTransfer_->get_nNodes();
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// copy fields
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fieldsNp1_ = fields_;
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// size rhs
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int dof = fields_[fieldName_].nCols();
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RnMap_ [fieldName_].reset(nNodes,dof);
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RnpMap_[fieldName_].reset(nNodes,dof);
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// Compute the RHS vector R(T^n)
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// Set BCs on Rn, multiply by inverse mass and then extract its vector
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atcTransfer_->compute_rhs_vector(rhsMask_, fields_, RnMap_,
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atcTransfer_->FULL_DOMAIN, physicsModel_);
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DENS_MAT & Rn = RnMap_[fieldName_];
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atcTransfer_->get_prescribed_data_manager()
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->set_fixed_dfield(simTime_, fieldName_, Rn);
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atcTransfer_->apply_inverse_mass_matrix(Rn,fieldName_);
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RnVect_ = column(Rn,0);
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}
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// --------------------------------------------------------------------
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// operator *(Vector)
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// --------------------------------------------------------------------
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DENS_VEC
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FieldImplicitSolveOperator::operator * (DENS_VEC x) const
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{
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// This method uses a matrix-free approach to approximate the
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// multiplication by matrix A in the matrix equation Ax=b, where the
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// matrix equation results from an implicit treatment of the
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// fast field solve for the Two Temperature Model. In
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// brief, if the ODE for the fast field can be written:
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//
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// dT/dt = R(T)
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//
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// A generalized discretization can be written:
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//
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// 1/dt * (T^n+1 - T^n) = alpha * R(T^n+1) + (1-alpha) * R(T^n)
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//
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// Taylor expanding the R(T^n+1) term and rearranging gives the
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// equation to be solved for dT at each timestep:
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//
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// [1 - dt * alpha * dR/dT] * dT = dt * R(T^n)
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//
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// The operator defined in this method computes the left-hand side,
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// given a vector dT. It uses a finite difference, matrix-free
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// approximation of dR/dT * dT, giving:
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//
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// [1 - dt * alpha * dR/dT] * dT = dt * R(T^n)
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// ~= dT - dt*alpha/epsilon * ( R(T^n + epsilon*dT) - R(T^n) )
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//
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// Compute epsilon
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double epsilon = (x.norm() > 0.0) ? epsilon0_ * TnVect_.norm()/x.norm() : epsilon0_;
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// Compute incremented vector = T + epsilon*dT
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fieldsNp1_[fieldName_] = TnVect_ + epsilon * x;
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// Evaluate R(b)
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atcTransfer_->compute_rhs_vector(rhsMask_, fieldsNp1_, RnpMap_,
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atcTransfer_->FULL_DOMAIN, physicsModel_);
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DENS_MAT & Rnp = RnpMap_[fieldName_];
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atcTransfer_->get_prescribed_data_manager()
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->set_fixed_dfield(simTime_, fieldName_, Rnp);
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atcTransfer_->apply_inverse_mass_matrix(Rnp,fieldName_);
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RnpVect_ = column(Rnp,0);
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// Compute full left hand side and return it
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DENS_VEC Ax = x - dt_ * alpha_ / epsilon * (RnpVect_ - RnVect_);
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return Ax;
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}
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// --------------------------------------------------------------------
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// get_rhs
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// --------------------------------------------------------------------
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DENS_VEC
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FieldImplicitSolveOperator::get_rhs()
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{
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// Return dt * R(T^n)
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return dt_ * RnVect_;
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}
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// --------------------------------------------------------------------
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// get_preconditioner
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// --------------------------------------------------------------------
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DIAG_MAT
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FieldImplicitSolveOperator::get_preconditioner(FIELDS & fields)
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{
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// Just create and return identity matrix
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int nNodes = atcTransfer_->get_nNodes();
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DENS_VEC ones(nNodes);
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ones = 1.0;
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DIAG_MAT identity(ones);
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return identity;
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}
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} // namespace ATC
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