コード例 #1
0
ファイル: NVE.cpp プロジェクト: Patrick-Louden/2.2
  void NVE::moveA(){
    SimInfo::MoleculeIterator i;
    Molecule::IntegrableObjectIterator  j;
    Molecule* mol;
    StuntDouble* sd;
    Vector3d vel;
    Vector3d pos;
    Vector3d frc;
    Vector3d Tb;
    Vector3d ji;
    RealType mass;
    
    for (mol = info_->beginMolecule(i); mol != NULL; 
         mol = info_->nextMolecule(i)) {

      for (sd = mol->beginIntegrableObject(j); sd != NULL;
	   sd = mol->nextIntegrableObject(j)) {

	vel = sd->getVel();
	pos = sd->getPos();
	frc = sd->getFrc();
	mass = sd->getMass();
                
	// velocity half step
	vel += (dt2 /mass * PhysicalConstants::energyConvert) * frc;

	// position whole step
	pos += dt * vel;

	sd->setVel(vel);
	sd->setPos(pos);

	if (sd->isDirectional()){

	  // get and convert the torque to body frame

	  Tb = sd->lab2Body(sd->getTrq());

	  // get the angular momentum, and propagate a half step

	  ji = sd->getJ();

	  ji += (dt2  * PhysicalConstants::energyConvert) * Tb;

	  rotAlgo_->rotate(sd, ji, dt);

	  sd->setJ(ji);
	}

            
      }
    }
    flucQ_->moveA();
    rattle_->constraintA();    
  }    
コード例 #2
0
ファイル: NPT.cpp プロジェクト: xielm12/OpenMD
  void NPT::moveB(void) {
    SimInfo::MoleculeIterator i;
    Molecule::IntegrableObjectIterator  j;
    Molecule* mol;
    StuntDouble* sd;
    int index;
    Vector3d Tb;
    Vector3d ji;
    Vector3d sc;
    Vector3d vel;
    Vector3d frc;
    RealType mass;

    thermostat = snap->getThermostat();
    RealType oldChi  = thermostat.first;
    RealType prevChi;

    loadEta();
    
    //save velocity and angular momentum
    index = 0;
    for (mol = info_->beginMolecule(i); mol != NULL; 
         mol = info_->nextMolecule(i)) {

      for (sd = mol->beginIntegrableObject(j); sd != NULL;
	   sd = mol->nextIntegrableObject(j)) {
                
	oldVel[index] = sd->getVel();

        if (sd->isDirectional())
	   oldJi[index] = sd->getJ();

	++index;
      }
    }

    // do the iteration:
    instaVol =thermo.getVolume();

    for(int k = 0; k < maxIterNum_; k++) {
      instaTemp =thermo.getTemperature();
      instaPress =thermo.getPressure();

      // evolve chi another half step using the temperature at t + dt/2
      prevChi = thermostat.first;
      thermostat.first = oldChi + dt2 * (instaTemp / targetTemp - 1.0) / tt2;

      //evolve eta
      this->evolveEtaB();
      this->calcVelScale();

      index = 0;
      for (mol = info_->beginMolecule(i); mol != NULL; 
           mol = info_->nextMolecule(i)) {

	for (sd = mol->beginIntegrableObject(j); sd != NULL;
	     sd = mol->nextIntegrableObject(j)) {            

	  frc = sd->getFrc();
	  mass = sd->getMass();

	  getVelScaleB(sc, index);

	  // velocity half step
	  vel = oldVel[index] 
            + dt2*PhysicalConstants::energyConvert/mass* frc 
            - dt2*sc;

	  sd->setVel(vel);

	  if (sd->isDirectional()) {
	    // get and convert the torque to body frame
	    Tb = sd->lab2Body(sd->getTrq());

	    ji = oldJi[index] 
              + dt2*PhysicalConstants::energyConvert*Tb 
              - dt2*thermostat.first*oldJi[index];

	    sd->setJ(ji);
	  }

	  ++index;
	}
      }
        
      rattle_->constraintB();

      if ((fabs(prevChi - thermostat.first) <= chiTolerance) && 
          this->etaConverged())
	break;
    }

    //calculate integral of chidt
    thermostat.second += dt2 * thermostat.first;

    snap->setThermostat(thermostat);

    flucQ_->moveB();
    saveEta();
  }
コード例 #3
0
ファイル: NPT.cpp プロジェクト: xielm12/OpenMD
  void NPT::moveA() {
    SimInfo::MoleculeIterator i;
    Molecule::IntegrableObjectIterator  j;
    Molecule* mol;
    StuntDouble* sd;
    Vector3d Tb, ji;
    RealType mass;
    Vector3d vel;
    Vector3d pos;
    Vector3d frc;
    Vector3d sc;
    int index;

    thermostat = snap->getThermostat();
    loadEta();
    
    instaTemp =thermo.getTemperature();
    press = thermo.getPressureTensor();
    instaPress = PhysicalConstants::pressureConvert* (press(0, 0) + press(1, 1) + press(2, 2)) / 3.0;
    instaVol =thermo.getVolume();

    Vector3d  COM = thermo.getCom();

    //evolve velocity half step

    calcVelScale();

    for (mol = info_->beginMolecule(i); mol != NULL; 
         mol = info_->nextMolecule(i)) {

      for (sd = mol->beginIntegrableObject(j); sd != NULL;
	   sd = mol->nextIntegrableObject(j)) {
                
	vel = sd->getVel();
	frc = sd->getFrc();

	mass = sd->getMass();

	getVelScaleA(sc, vel);

	// velocity half step  (use chi from previous step here):

	vel += dt2*PhysicalConstants::energyConvert/mass* frc - dt2*sc;
	sd->setVel(vel);

	if (sd->isDirectional()) {

	  // get and convert the torque to body frame

	  Tb = sd->lab2Body(sd->getTrq());

	  // get the angular momentum, and propagate a half step

	  ji = sd->getJ();

	  ji += dt2*PhysicalConstants::energyConvert * Tb 
            - dt2*thermostat.first* ji;
                
	  rotAlgo_->rotate(sd, ji, dt);

	  sd->setJ(ji);
	}
            
      }
    }
    // evolve chi and eta  half step

    thermostat.first += dt2 * (instaTemp / targetTemp - 1.0) / tt2;
    
    evolveEtaA();

    //calculate the integral of chidt
    thermostat.second += dt2 * thermostat.first;
    
    flucQ_->moveA();


    index = 0;
    for (mol = info_->beginMolecule(i); mol != NULL; 
         mol = info_->nextMolecule(i)) {

      for (sd = mol->beginIntegrableObject(j); sd != NULL;
	   sd = mol->nextIntegrableObject(j)) {

	oldPos[index++] = sd->getPos();            

      }
    }
    
    //the first estimation of r(t+dt) is equal to  r(t)

    for(int k = 0; k < maxIterNum_; k++) {
      index = 0;
      for (mol = info_->beginMolecule(i); mol != NULL; 
           mol = info_->nextMolecule(i)) {

	for (sd = mol->beginIntegrableObject(j); sd != NULL;
	     sd = mol->nextIntegrableObject(j)) {

	  vel = sd->getVel();
	  pos = sd->getPos();

	  this->getPosScale(pos, COM, index, sc);

	  pos = oldPos[index] + dt * (vel + sc);
	  sd->setPos(pos);     

	  ++index;
	}
      }

      rattle_->constraintA();
    }

    // Scale the box after all the positions have been moved:

    this->scaleSimBox();

    snap->setThermostat(thermostat);

    saveEta();
  }