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Comparing trunk/src/applications/hydrodynamics/AnalyticalModel.cpp (file contents):
Revision 906 by tim, Fri Mar 17 23:20:35 2006 UTC vs.
Revision 1879 by gezelter, Sun Jun 16 15:15:42 2013 UTC

# Line 6 | Line 6
6   * redistribute this software in source and binary code form, provided
7   * that the following conditions are met:
8   *
9 < * 1. Acknowledgement of the program authors must be made in any
10 < *    publication of scientific results based in part on use of the
11 < *    program.  An acceptable form of acknowledgement is citation of
12 < *    the article in which the program was described (Matthew
13 < *    A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
14 < *    J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
15 < *    Parallel Simulation Engine for Molecular Dynamics,"
16 < *    J. Comput. Chem. 26, pp. 252-271 (2005))
17 < *
18 < * 2. Redistributions of source code must retain the above copyright
9 > * 1. Redistributions of source code must retain the above copyright
10   *    notice, this list of conditions and the following disclaimer.
11   *
12 < * 3. Redistributions in binary form must reproduce the above copyright
12 > * 2. Redistributions in binary form must reproduce the above copyright
13   *    notice, this list of conditions and the following disclaimer in the
14   *    documentation and/or other materials provided with the
15   *    distribution.
# Line 37 | Line 28
28   * arising out of the use of or inability to use software, even if the
29   * University of Notre Dame has been advised of the possibility of
30   * such damages.
31 + *
32 + * SUPPORT OPEN SCIENCE!  If you use OpenMD or its source code in your
33 + * research, please cite the appropriate papers when you publish your
34 + * work.  Good starting points are:
35 + *                                                                      
36 + * [1]  Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).            
37 + * [2]  Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).          
38 + * [3]  Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).          
39 + * [4]  Kuang & Gezelter,  J. Chem. Phys. 133, 164101 (2010).
40 + * [5]  Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
41   */
42   #include "applications/hydrodynamics/AnalyticalModel.hpp"
43 < #include "applications/hydrodynamics/Spheric.hpp"
44 < #include "applications/hydrodynamics/Ellipsoid.hpp"
43 > #include "hydrodynamics/Sphere.hpp"
44 > #include "hydrodynamics/Ellipsoid.hpp"
45   #include "applications/hydrodynamics/CompositeShape.hpp"
46   #include "math/LU.hpp"
47 < namespace oopse {
48 < bool AnalyticalModel::calcHydroProps(Spheric* spheric, double viscosity, double temperature) {
49 <
49 <    double radius = spheric->getRadius();
50 <    HydroProps props;
51 <    props.center =V3Zero;
52 <    double Xitt  = 6.0 * NumericConstant::PI * viscosity * radius;
53 <    double Xirr = 8.0 * NumericConstant::PI * viscosity * radius * radius * radius;
54 <    props.Xi(0, 0) = Xitt;
55 <    props.Xi(1, 1) = Xitt;
56 <    props.Xi(2, 2) = Xitt;
57 <    props.Xi(3, 3) = Xirr;
58 <    props.Xi(4, 4) = Xirr;
59 <    props.Xi(5, 5) = Xirr;
47 > namespace OpenMD {
48 >  
49 >  bool AnalyticalModel::calcHydroProps(Shape* shape, RealType viscosity, RealType temperature) {
50      
51 <    const double convertConstant = 6.023; //convert poise.angstrom to amu/fs
52 <    props.Xi *= convertConstant;
53 <    Mat6x6d XiCopy = props.Xi;
54 <    invertMatrix(XiCopy, props.D);
55 <    double kt = OOPSEConstant::kB * temperature;
56 <    props.D *= kt;
57 <    props.Xi *= OOPSEConstant::kb * temperature;
58 <
59 <    setCR(props);
60 <    setCD(props);
61 <
62 <    return true;
51 >    HydroProp* props;
52 >    Sphere* sphere = dynamic_cast<Sphere*>(shape);        
53 >    if (sphere != NULL) {
54 >      props = sphere->getHydroProp(viscosity, temperature);
55 >      setCR(props);
56 >      setCD(props);
57 >      return true;
58 >    } else {
59 >      Ellipsoid* ellipsoid = dynamic_cast<Ellipsoid*>(shape);        
60 >      if (ellipsoid != NULL) {
61 >        props = ellipsoid->getHydroProp(viscosity, temperature);
62 >        setCR(props);
63 >        setCD(props);
64 >        return true;
65 >      } else {
66 >        CompositeShape* composite = dynamic_cast<CompositeShape*>(shape);
67 >        if (composite != NULL) {
68 > //           props = composite->getHydroProp(viscosity, temperature);
69 > //           setCR(props);
70 > //           setCD(props);
71 > //           return true;
72 >          return false;
73 >        } else {
74 >          sprintf( painCave.errMsg,
75 >                   "Could not figure out what kind of shape this is!\n");
76 >          painCave.severity = OPENMD_ERROR;
77 >          painCave.isFatal = 1;
78 >          simError();    
79 >          return false;
80 >        }
81 >      }
82 >    }          
83 >  }
84      
85 +  void AnalyticalModel::writeBeads(std::ostream& os) {
86 +    os << "1\n";
87 +    os << "Generated by Hydro\n";
88 +    Vector3d pos = sd_->getPos();
89 +    os << sd_->getType() << "\t" << pos[0] << "\t" << pos[1] << "\t" << pos[2] << std::endl;
90 +  }  
91   }
75
76 /**
77 * calculate the ratio of friction coeffiction constant between ellipsoid and spheric
78 * with same volume.
79 * @param m
80 * @param n
81 * @note
82 * Reference:
83 *
84 * (1) Victor A. Bloomfield, On-Line Biophysics Textbook, Volume: Separations and Hydrodynamics
85 * Chapter 1,Survey of Biomolecular Hydrodynamics
86 * http://www.biophysics.org/education/vbloomfield.pdf
87 * (2) F. Perrin , J. Phys. Radium, [7] 5, 497-511, 1934
88 * (3) F. Perrin, J. Phys. Radium, [7] 7, 1-11, 1936
89 */        
90 bool AnalyticalModel::calcHydroProps(Ellipsoid* ellipsoid, double viscosity, double temperature) {
91    double ft;
92    double fra;
93    double frb;
94    double a = ellipsoid->getA();
95    double b = ellipsoid->getB();
96    double q = a/b; //?
97    if (q > 1.0) {//prolate
98        ft = sqrt(1-q*q)/(pow(q, 2.0/3.0)*log((1 + sqrt(1-q*q))/q));
99        fra = 4*(1-q*q)/(3*(2 - 2*pow(q, 4.0/3.0)/ft)); //not sure
100        frb = 4*(1-q*q*q*q) /(3*q*q*(2*pow(q, -2.0/3.0)*(2-q*q)/ft-2));
101    } else {//oblate
102        ft = sqrt(1-q*q)/(pow(q, 2.0/3.0)*atan(sqrt(q*q-1)));
103        fra = 4*(1-q*q)/(3*(2 - 2*pow(q, 4.0/3.0)/ft)); //not sure
104        frb = 4*(1-q*q*q*q) /(3*q*q*(2*pow(q, -2.0/3.0)*(2-q*q)/ft-2));
105    }
106                    
107    double radius = pow(a*a*b, 1.0/3.0);
108    HydroProps props;
109    double Xitt  = 6.0 * NumericConstant::PI * viscosity * radius;
110    double Xirr = 8.0 * NumericConstant::PI * viscosity * radius * radius * radius;
111    props.Xi(0, 0) = Xitt;
112    props.Xi(1, 1) = Xitt;
113    props.Xi(2, 2) = Xitt;
114    props.Xi(3, 3) = Xirr;
115    props.Xi(4, 4) = Xirr;
116    props.Xi(5, 5) = Xirr;
117    
118    const double convertConstant = 6.023; //convert poise.angstrom to amu/fs
119    props.Xi *= convertConstant;    
120    props.Xi(0,0) *= ft;
121    props.Xi(1,1) *= ft;
122    props.Xi(2,2) *= ft;
123    props.Xi(3,3) *= fra;
124    props.Xi(4,4) *= fra;
125    props.Xi(5,5) *= frb;
126    
127    Mat6x6d XiCopy = props.Xi;
128    XiCopy /= OOPSEConstant::kb * temperature;
129    invertMatrix(XiCopy, props.D);
130    double kt = OOPSEConstant::kB * temperature;
131    props.D *= kt;
132
133    setCR(props);
134    setCD(props);
135
136    return true;
137 }
138
139 bool AnalyticalModel::calcHydroProps(CompositeShape* compositexShape, double viscosity, double temperature) {
140    return false;
141 }
142        
143
144
145 }

Comparing trunk/src/applications/hydrodynamics/AnalyticalModel.cpp (property svn:keywords):
Revision 906 by tim, Fri Mar 17 23:20:35 2006 UTC vs.
Revision 1879 by gezelter, Sun Jun 16 15:15:42 2013 UTC

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