Improve Verlet buffer constraint estimate

[alexxy/gromacs.git] / src / gromacs / mdlib / calc_verletbuf.h

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#ifndef GMX_MDLIB_CALC_VERLETBUF_H
#define GMX_MDLIB_CALC_VERLETBUF_H

#include "gromacs/utility/basedefinitions.h"
#include "gromacs/utility/real.h"

struct gmx_mtop_t;
struct t_inputrec;

#ifdef __cplusplus
extern "C" {
#endif

typedef struct
{
    int  cluster_size_i;  /* Cluster pair-list i-cluster size atom count */
    int  cluster_size_j;  /* Cluster pair-list j-cluster size atom count */
} verletbuf_list_setup_t;


/* Add a 5% and 10% rlist buffer for simulations without dynamics (EM, NM, ...)
 * and NVE simulations with zero initial temperature, respectively.
 * 10% should be enough for any NVE simulation with PME and nstlist=10,
 * for other settings it might not be enough, but then it's difficult
 * to come up with any reasonable (not crazily expensive) value
 * and grompp will notify the user when using the 10% buffer.
 */
static const real verlet_buffer_ratio_nodynamics = 0.05;
static const real verlet_buffer_ratio_NVE_T0     = 0.10;


/* Sets the pair-list setup assumed for the current Gromacs configuration.
 * The setup with smallest cluster sizes is return, such that the Verlet
 * buffer size estimated with this setup will be conservative.
 * bSIMD tells if to take into account SIMD, when supported.
 * bGPU tells to estimate for GPU kernels (bSIMD is ignored with bGPU=TRUE)
 */
void verletbuf_get_list_setup(gmx_bool                bSIMD,
                              gmx_bool                bGPU,
                              verletbuf_list_setup_t *list_setup);


/* Calculate the non-bonded pair-list buffer size for the Verlet list
 * based on the particle masses, temperature, LJ types, charges
 * and constraints as well as the non-bonded force behavior at the cut-off.
 * If reference_temperature < 0, the maximum coupling temperature will be used.
 * The target is a maximum energy drift of ir->verletbuf_tol.
 * Returns the number of non-linear virtual sites. For these it's difficult
 * to determine their contribution to the drift exaclty, so we approximate.
 * Returns the pair-list cut-off.
 */
void calc_verlet_buffer_size(const gmx_mtop_t *mtop, real boxvol,
                             const t_inputrec *ir,
                             real reference_temperature,
                             const verletbuf_list_setup_t *list_setup,
                             int *n_nonlin_vsite,
                             real *rlist);

/* Struct for unique atom type for calculating the energy drift.
 * The atom displacement depends on mass and constraints.
 * The energy jump for given distance depend on LJ type and q.
 */
struct atom_nonbonded_kinetic_prop_t
{
    real     mass;     /* mass */
    int      type;     /* type (used for LJ parameters) */
    real     q;        /* charge */
    gmx_bool bConstr;  /* constrained, if TRUE, use #DOF=2 iso 3 */
    real     con_mass; /* mass of heaviest atom connected by constraints */
    real     con_len;  /* constraint length to the heaviest atom */
};

/* This function computes two components of the estimate of the variance
 * in the displacement of one atom in a system of two constrained atoms.
 * Returns in sigma2_2d the variance due to rotation of the constrained
 * atom around the atom to which it constrained.
 * Returns in sigma2_3d the variance due to displacement of the COM
 * of the whole system of the two constrained atoms.
 *
 * Only exposed here for testing purposes.
 */
void constrained_atom_sigma2(real                                 kT_fac,
                             const atom_nonbonded_kinetic_prop_t *prop,
                             real                                *sigma2_2d,
                             real                                *sigma2_3d);

#ifdef __cplusplus
}
#endif

#endif