Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F69729901
ChargeRegulator.h
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Wed, Jul 3, 05:14
Size
6 KB
Mime Type
text/x-c
Expires
Fri, Jul 5, 05:14 (2 d)
Engine
blob
Format
Raw Data
Handle
18668419
Attached To
rLAMMPS lammps
ChargeRegulator.h
View Options
#ifndef CHARGE_REGULATOR_H
#define CHARGE_REGULATOR_H
#include "AtomicRegulator.h"
#include "PoissonSolver.h"
#include <map>
#include <utility>
#include <string>
#include <vector>
namespace ATC {
/**
* @class ChargeRegulator
* @brief Manager class for atom-continuum control of charge and potential
*/
class ChargeRegulatorMethod;
class ChargeRegulator : public AtomicRegulator {
public:
/** charge regulator types */
enum ChargeRegulatorType {
NONE=0,
FEEDBACK,
IMAGE_CHARGE,
EFFECTIVE_CHARGE
};
enum ChargedSurfaceType {
INSULATOR=0,
DIELECTRIC,
CONDUCTOR
};
/** parser data */
struct ChargeRegulatorParameters {
ChargeRegulatorParameters():
method(NONE),
value(0),
groupBit(0),
depth(0),
permittivity(0),
surfaceType(INSULATOR) { };
ChargeRegulatorType method;
double value;
int groupBit;
std::string groupTag;
double depth;
double permittivity;
ChargedSurfaceType surfaceType;
FSET faceset;
};
/** constructor */
ChargeRegulator(ATC_Coupling *atc);
/** destructor */
~ChargeRegulator();
/** parser/modifier */
virtual bool modify(int narg, char **arg);
virtual void construct_methods();
virtual void initialize();
virtual void apply_pre_force(double dt);
virtual void apply_post_force(double dt);
virtual void output(OUTPUT_LIST & outputData) const;
virtual double compute_vector(int n) const {return 0;} // TODO
void assign_poisson_solver(PoissonSolver * solver) { poissonSolver_ = solver;}
PoissonSolver * poisson_solver(void) { return poissonSolver_;}
protected:
/** poisson solver */
PoissonSolver * poissonSolver_;
/** registry charge regulators */
std::map<std::string,ChargeRegulatorMethod *> regulators_;
std::map<std::string,ChargeRegulatorParameters> parameters_;
private:
ChargeRegulator(); // DO NOT define this
};
/**
* @class ChargeRegulatorMethod
* @brief Base class for implementation of ChargeRegulator algorithms
*/
class ChargeRegulatorMethod : public RegulatorShapeFunction {
public:
ChargeRegulatorMethod(ChargeRegulator *chargeRegulator,
ChargeRegulator::ChargeRegulatorParameters & parameters);
~ChargeRegulatorMethod(){};
virtual void initialize(void);
void set_greens_functions();
virtual void apply_pre_force(double dt){};
virtual void apply_post_force(double dt){};
virtual void set_weights() {};
const DENS_VEC & total_influence() const { return sum_;}
virtual void output(OUTPUT_LIST & outputData);
protected:
int nlocal();
/** pointer to charge regulator object for data */
ChargeRegulator * chargeRegulator_;
/** interscale manager */
class InterscaleManager * interscaleManager_;
/** direct interface to lammps */
class LammpsInterface * lammpsInterface_;
/** poisson solver */
PoissonSolver * poissonSolver_;
/** (subset) of Green's functions */
std::vector<SparseVector<double> > greensFunctions_;
/** cutoff radius */
double rC_,rCsq_;
/** conversion constants */
double qV2e_, qqrd2e_;
/** member data */
XT_Function * targetValue_;
double targetPhi_;
// controlling
FSET surface_;
NSET nodes_;
int atomGroupBit_;
bool boundary_; // atoms on boundary
DENS_VEC point_;
DENS_VEC normal_;
double depth_;
ChargeRegulator::ChargedSurfaceType surfaceType_;
double permittivity_;
bool initialized_;
DENS_VEC sum_;
/** workspace */
mutable DENS_MAT _atomElectricalForce_;
private:
ChargeRegulatorMethod(); // DO NOT define this
};
/**
* @class ChargeRegulatorMethodFeedback
* @brief ChargeRegulator with feedback and ad hoc positions
* can be used for conductor (1 charged sheet) or insulator (2 sheets)
*/
class ChargeRegulatorMethodFeedback : public ChargeRegulatorMethod {
public:
/** constructor */
ChargeRegulatorMethodFeedback(ChargeRegulator *chargeRegulator,
ChargeRegulator::ChargeRegulatorParameters & parameters);
/** destructor */
~ChargeRegulatorMethodFeedback(){};
/** instantiate all needed data */
virtual void construct_transfers();
/** initialize */
virtual void initialize(void);
/** set influence nodes and atoms */
void set_influence();
void set_influence_matrix(void);
/** post first verlet step */
virtual void apply_pre_force(double dt);
void apply_feedback_charges();
protected:
int nControlNodes_;
NSET & controlNodes_;
// measurement/controlled
int influenceGroupBit_;
int nInfluenceAtoms_;
NSET influenceAtoms_, influenceAtomsIds_;
int nInfluenceNodes_;
NSET influenceNodes_;
DENS_MAT invG_;
DENS_MAT invNNT_;
DENS_MAT NT_;
DENS_MAT NTinvNNTinvG_;
private:
ChargeRegulatorMethodFeedback(); // DO NOT define this
};
/**
* @class ChargeRegulatorMethodImageCharge
* @brief ChargeRegulator with image charges
*/
class ChargeRegulatorMethodImageCharge : public ChargeRegulatorMethod {
public:
/** constructor */
ChargeRegulatorMethodImageCharge(ChargeRegulator *chargeRegulator,
ChargeRegulator::ChargeRegulatorParameters & parameters);
/** destructor */
~ChargeRegulatorMethodImageCharge(){};
/** initialize */
virtual void initialize(void);
/** post first verlet step */
virtual void apply_post_force(double dt);
protected:
double reflect(DENS_VEC & x) const {
double dn = (x-point_).dot(normal_);
x -= 2*dn*normal_;
return dn;
}
// internal functions
void apply_local_forces();
void correct_charge_densities();
void correct_forces();
double layerDepth_;
double permittivityRatio_;
NSET & imageNodes_;
DENS_MAT imageTransferOp_;
private:
ChargeRegulatorMethodImageCharge(); // DO NOT define this
};
/**
* @class ChargeRegulatorMethodEffectiveCharge
* @brief ChargeRegulator with effective charges at FE quadrature pts
*/
class ChargeRegulatorMethodEffectiveCharge : public ChargeRegulatorMethod {
typedef std::map<int,std::pair<DENS_VEC,double> > NODE_TO_XF_MAP;
public:
/** constructor */
ChargeRegulatorMethodEffectiveCharge(ChargeRegulator *chargeRegulator,
ChargeRegulator::ChargeRegulatorParameters & parameters);
/** destructor */
~ChargeRegulatorMethodEffectiveCharge(){};
/** initialize */
virtual void initialize(void);
/** post first verlet step */
virtual void apply_post_force(double dt);
protected:
// internal functions
void apply_local_forces();
// member data
double chargeDensity_;
std::map<int,double> nodalChargePotential_;
NODE_TO_XF_MAP nodeXFMap_;
bool useSlab_;
private:
ChargeRegulatorMethodEffectiveCharge(); // DO NOT define this
};
};
#endif
Event Timeline
Log In to Comment