t_3dvec r; /* position */
t_3dvec v; /* velocity */
t_3dvec f; /* force */
+ t_3dvec virial; /* virial */
int element; /* number of element in pse */
double mass; /* atom mass */
u8 bnum; /* brand number */
#define ATOM_ATTR_FP 0x01 /* fixed position (bulk material) */
#define ATOM_ATTR_HB 0x02 /* coupled to heat bath (velocity scaling) */
-#define ATOM_ATTR_1BP 0x10 /* single paricle potential */
-#define ATOM_ATTR_2BP 0x20 /* pair potential */
-#define ATOM_ATTR_3BP 0x40 /* 3 body potential */
+#define ATOM_ATTR_1BP 0x10 /* single paricle potential */
+#define ATOM_ATTR_2BP 0x20 /* pair potential */
+#define ATOM_ATTR_3BP 0x40 /* 3 body potential */
/* cell lists */
typedef struct s_linkcell {
double x,y,z; /* the actual cell lengthes */
t_list *subcell; /* pointer to the cell lists */
int dnlc; /* direct neighbour lists counter */
- int countn; /* amount of neighbours */
} t_linkcell;
#include "visual/visual.h"
t_atom *atom; /* pointer to the atoms */
t_3dvec dim; /* dimensions of the simulation volume */
+ double volume; /* volume of sim cell (dim.x*dim.y*dim.z) */
/* potential force function and parameter pointers */
int (*func1b)(struct s_moldyn *moldyn,t_atom *ai);
void *pot1b_params;
int (*func2b)(struct s_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc);
+ int (*func2b_post)(struct s_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc);
void *pot2b_params;
int (*func3b)(struct s_moldyn *moldyn,t_atom *ai,t_atom *aj,t_atom *ak,
u8 bck);
double p; /* actual pressure */
/* pressure and temperature control (velocity/volume scaling) */
+ /* (t_tc in units of tau, p_tc in units of tau * isoth. compressib.) */
unsigned char pt_scale; /* type of p and t scaling */
double t_tc; /* t berendsen control time constant */
double p_tc; /* p berendsen control time constant */
double energy; /* potential energy */
double ekin; /* kinetic energy */
- t_visual vis; /* visualization/log/save interface structure */
- u8 lvstat; /* log & vis properties */
+ char vlsdir[128]; /* visualization/log/save directory */
+ t_visual vis; /* visualization interface structure */
+ u8 vlsprop; /* log/vis/save properties */
unsigned int ewrite; /* how often to log energy */
int efd; /* fd for energy log */
unsigned int mwrite; /* how often to log momentum */
int mfd; /* fd for momentum log */
unsigned int vwrite; /* how often to visualize atom information */
- char vfb[64]; /* visualization file name base */
- //void *visual; /* pointer (hack!) */
unsigned int swrite; /* how often to create a save file */
- char sfb[64]; /* visualization file name base */
u8 status; /* general moldyn properties */
t_random random; /* random interface */
+
+ int debug; /* debugging stuff, ignore */
} t_moldyn;
-#define MOLDYN_STAT_PBX 0x08 /* periodic boudaries in x */
-#define MOLDYN_STAT_PBY 0x10 /* y */
-#define MOLDYN_STAT_PBZ 0x20 /* and z direction */
+#define MOLDYN_STAT_PBX 0x01 /* periodic boudaries in x */
+#define MOLDYN_STAT_PBY 0x02 /* y */
+#define MOLDYN_STAT_PBZ 0x04 /* and z direction */
+
+#define MOLDYN_PSCALE 0x08 /* size controlled by piston */
-#define MOLDYN_1BP 0x00 /* care about single */
-#define MOLDYN_2BP 0x01 /* 2 body */
-#define MOLDYN_3BP 0x02 /* and 3 body particle pots */
+#define MOLDYN_1BP 0x10 /* care about single */
+#define MOLDYN_2BP 0x20 /* 2 body */
+#define MOLDYN_3BP 0x40 /* and 3 body particle pots */
#define T_SCALE_BERENDSEN 0x01 /* berendsen t control */
#define T_SCALE_DIRECT 0x02 /* direct t control */
t_3dvec dist_ij;
double d_ij;
- double d_ij2;
double chi;
- double *beta;
- double *n;
- double *c;
- double *d;
- double *h;
-
- double c2;
- double d2;
- double c2d2;
- double betan;
+ double *beta_i;
+ double *beta_j;
+ double *n_i;
+ double *n_j;
+ double *c_i;
+ double *c_j;
+ double *d_i;
+ double *d_j;
+ double *h_i;
+ double *h_j;
+
+ double ci2;
+ double cj2;
+ double di2;
+ double dj2;
+ double ci2di2;
+ double cj2dj2;
+ double betaini;
+ double betajnj;
u8 run3bp;
+ u8 run2bp_post;
+ u8 d_ij_between_rs;
+
+ double zeta_ij;
+ double zeta_ji;
+ t_3dvec dzeta_ij;
+ t_3dvec dzeta_ji;
} t_tersoff_exchange;
/* tersoff multi (2!) potential parameters */
*
*/
-/* default values */
+#define ONE_THIRD (1.0/3.0)
+
+/*
+ * default values
+ *
+ * - length unit: 1 A (1 A = 1e-10 m)
+ * - time unit: 1 fs (1 fs = 1e-15 s)
+ * - mass unit: 1 amu (1 amu = 1.6605388628e-27 kg )
+ *
+ * fyi: in the following 1 N = (amu*A)/(fs*fs)
+ *
+ */
+
+#define METER 1e10 /* A */
+#define SECOND 1e15 /* fs */
+#define AMU 1.6605388628e-27 /* kg */
+#define KILOGRAM (1.0/AMU) /* amu */
+#define NEWTON (METER*KILOGRAM/(SECOND*SECOND)) /* A amu / fs^2 */
+#define PASCAL (NEWTON/(METER*METER)) /* N / A^2 */
+#define ATM (1.0133e5*PASCAL) /* N / A^2 */
#define MOLDYN_TEMP 273.0
-#define MOLDYN_TAU 1.0e-15
-#define MOLDYN_CUTOFF 1.0e-9
+#define MOLDYN_TAU 1.0
+#define MOLDYN_CUTOFF 10.0
#define MOLDYN_RUNS 1000000
-#define MOLDYN_CRITICAL_EST_TEMP 5.0
-
#define MOLDYN_INTEGRATE_VERLET 0x00
#define MOLDYN_INTEGRATE_DEFAULT MOLDYN_INTEGRATE_VERLET
*
* phsical values / constants
*
+ *
*/
-#define K_BOLTZMANN 1.3807e-27 /* Nm/K */
-#define AMU 1.660540e-27 /* kg */
-#define EV 1.60217733e-19 /* Nm */
-
-#define FCC 0x01
-#define DIAMOND 0x02
+#define K_BOLTZMANN (1.380650524e-23*METER*NEWTON) /* NA/K */
+#define EV (1.6021765314e-19*METER*NEWTON) /* NA */
#define C 0x06
-#define M_C (12.011*AMU)
+#define M_C 12.011 /* amu */
#define SI 0x0e
-#define LC_SI 0.543105e-9 /* m */
-#define M_SI (28.085*AMU) /* kg */
-#define LJ_SIGMA_SI ((0.25*sqrt(3.0)*LC_SI)/1.122462) /* m */
-#define LJ_EPSILON_SI (2.1678*1.60e-19) /* Nm */
-
-#define TM_R_SI 2.7e-10 /* m */
-#define TM_S_SI 3.0e-10 /* m */
-#define TM_A_SI (1830.8*EV) /* Nm */
-#define TM_B_SI (471.18*EV) /* Nm */
-#define TM_LAMBDA_SI 2.4799e10 /* 1/m */
-#define TM_MU_SI 1.7322e10 /* 1/m */
+#define LC_SI (0.543105e-9*METER) /* A */
+#define M_SI 28.08553 /* amu */
+#define LJ_SIGMA_SI ((0.25*sqrt(3.0)*LC_SI)/1.122462) /* A */
+#define LJ_EPSILON_SI (2.1678*EV) /* NA */
+
+#define TM_R_SI (2.7e-10*METER) /* A */
+#define TM_S_SI (3.0e-10*METER) /* A */
+#define TM_A_SI (1830.8*EV) /* NA */
+#define TM_B_SI (471.18*EV) /* NA */
+#define TM_LAMBDA_SI (2.4799e10/METER) /* 1/A */
+#define TM_MU_SI (1.7322e10/METER) /* 1/A */
#define TM_BETA_SI 1.1000e-6
#define TM_N_SI 0.78734
#define TM_C_SI 1.0039e5
-#define TM_D_SI 1.62170
-#define TM_H_SI (-0.59825)
-
-#define TM_R_C 1.8e-10 /* m */
-#define TM_S_C 2.1e-10 /* m */
-#define TM_A_C (1393.6*EV) /* Nm */
-#define TM_B_C (346.7*EV) /* Nm */
-#define TM_LAMBDA_C 3.4879e10 /* 1/m */
-#define TM_MU_C 2.2119e10 /* 1/m */
+#define TM_D_SI 16.217
+#define TM_H_SI -0.59825
+
+#define TM_R_C (1.8e-10*METER) /* A */
+#define TM_S_C (2.1e-10*METER) /* A */
+#define TM_A_C (1393.6*EV) /* NA */
+#define TM_B_C (346.7*EV) /* NA */
+#define TM_LAMBDA_C (3.4879e10/METER) /* 1/A */
+#define TM_MU_C (2.2119e10/METER) /* 1/A */
#define TM_BETA_C 1.5724e-7
#define TM_N_C 0.72751
#define TM_C_C 3.8049e4
#define TM_D_C 4.384
-#define TM_H_C (-0.57058)
+#define TM_H_C -0.57058
#define TM_CHI_SIC 0.9776
+/*
+ * lattice constants
+ */
+
+#define FCC 0x01
+#define DIAMOND 0x02
+
/*
*
typedef int (*pf_func1b)(t_moldyn *,t_atom *ai);
typedef int (*pf_func2b)(t_moldyn *,t_atom *,t_atom *,u8 bc);
+typedef int (*pf_func2b_post)(t_moldyn *,t_atom *,t_atom *,u8 bc);
typedef int (*pf_func3b)(t_moldyn *,t_atom *,t_atom *,t_atom *,u8 bc);
int moldyn_init(t_moldyn *moldyn,int argc,char **argv);
int set_int_alg(t_moldyn *moldyn,u8 algo);
int set_cutoff(t_moldyn *moldyn,double cutoff);
int set_temperature(t_moldyn *moldyn,double t_ref);
+int set_pressure(t_moldyn *moldyn,double p_ref);
int set_pt_scale(t_moldyn *moldyn,u8 ptype,double ptc,u8 ttype,double ttc);
int set_dim(t_moldyn *moldyn,double x,double y,double z,u8 visualize);
int set_nn_dist(t_moldyn *moldyn,double dist);
int set_pbc(t_moldyn *moldyn,u8 x,u8 y,u8 z);
int set_potential1b(t_moldyn *moldyn,pf_func1b func,void *params);
int set_potential2b(t_moldyn *moldyn,pf_func2b func,void *params);
+int set_potential2b_post(t_moldyn *moldyn,pf_func2b_post func,void *params);
int set_potential3b(t_moldyn *moldyn,pf_func3b func,void *params);
-int moldyn_set_log(t_moldyn *moldyn,u8 type,char *fb,int timer);
+int moldyn_set_log_dir(t_moldyn *moldyn,char *dir);
+int moldyn_set_log(t_moldyn *moldyn,u8 type,int timer);
int moldyn_log_shutdown(t_moldyn *moldyn);
int create_lattice(t_moldyn *moldyn,u8 type,double lc,int element,double mass,
int thermal_init(t_moldyn *moldyn,u8 equi_init);
int scale_velocity(t_moldyn *moldyn,u8 equi_init);
+int scale_volume(t_moldyn *moldyn);
double get_e_kin(t_moldyn *moldyn);
double get_e_pot(t_moldyn *moldyn);
int tersoff_mult_complete_params(t_tersoff_mult_params *p);
int tersoff_mult_1bp(t_moldyn *moldyn,t_atom *ai);
int tersoff_mult_2bp(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc);
+int tersoff_mult_post_2bp(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc);
int tersoff_mult_3bp(t_moldyn *moldyn,t_atom *ai,t_atom *aj,t_atom *ak,u8 bc);
+int moldyn_bc_check(t_moldyn *moldyn);
+
#endif