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pair_reax_c_kokkos.h
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pair_reax_c_kokkos.h
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/* -*- c++ -*- ----------------------------------------------------------
LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
http://lammps.sandia.gov, Sandia National Laboratories
Steve Plimpton, sjplimp@sandia.gov
Copyright (2003) Sandia Corporation. Under the terms of Contract
DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains
certain rights in this software. This software is distributed under
the GNU General Public License.
See the README file in the top-level LAMMPS directory.
------------------------------------------------------------------------- */
#ifdef PAIR_CLASS
PairStyle(reax/c/kk,PairReaxCKokkos<LMPDeviceType>)
PairStyle(reax/c/kk/device,PairReaxCKokkos<LMPDeviceType>)
PairStyle(reax/c/kk/host,PairReaxCKokkos<LMPHostType>)
#else
#ifndef LMP_PAIR_REAXC_KOKKOS_H
#define LMP_PAIR_REAXC_KOKKOS_H
#include <stdio.h>
#include "pair_kokkos.h"
#include "pair_reax_c.h"
#include "neigh_list_kokkos.h"
#include "reaxc_types.h"
#define C_ele 332.06371
#define SMALL 0.0001
#define KCALpMOL_to_EV 23.02
#define HB_THRESHOLD 1e-2 // 0.01
#define MAX_BONDS 30
#define SQR(x) ((x)*(x))
namespace LAMMPS_NS {
typedef Kokkos::DualView<LR_data*,Kokkos::LayoutRight,LMPDeviceType> tdual_LR_data_1d;
typedef typename tdual_LR_data_1d::t_dev t_LR_data_1d;
typedef Kokkos::DualView<cubic_spline_coef*,Kokkos::LayoutRight,LMPDeviceType> tdual_cubic_spline_coef_1d;
typedef typename tdual_cubic_spline_coef_1d::t_dev t_cubic_spline_coef_1d;
struct LR_lookup_table_kk
{
double xmin, xmax;
int n;
double dx, inv_dx;
double a;
double m;
double c;
t_LR_data_1d d_y;
t_cubic_spline_coef_1d d_H;
t_cubic_spline_coef_1d d_vdW, d_CEvd;
t_cubic_spline_coef_1d d_ele, d_CEclmb;
};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputePolar{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeLJCoulomb{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeTabulatedLJCoulomb{};
struct PairReaxBuildListsFull{};
template<int NEIGHFLAG>
struct PairReaxBuildListsHalf{};
template<int NEIGHFLAG>
struct PairReaxBuildListsHalf_LessAtomics{};
struct PairReaxZero{};
struct PairReaxZeroEAtom{};
struct PairReaxZeroVAtom{};
struct PairReaxBondOrder1{};
struct PairReaxBondOrder1_LessAtomics{};
struct PairReaxBondOrder2{};
struct PairReaxBondOrder3{};
template<int NEIGHFLAG>
struct PairReaxUpdateBond{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeBond1{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeBond2{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeMulti1{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeMulti2{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeAngular{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeTorsion{};
template<int NEIGHFLAG, int EVFLAG>
struct PairReaxComputeHydrogen{};
template<class DeviceType>
class PairReaxCKokkos : public PairReaxC {
public:
enum {EnabledNeighFlags=FULL|HALF|HALFTHREAD};
enum {COUL_FLAG=1};
typedef DeviceType device_type;
typedef ArrayTypes<DeviceType> AT;
typedef EV_FLOAT_REAX value_type;
PairReaxCKokkos(class LAMMPS *);
virtual ~PairReaxCKokkos();
void ev_setup(int, int);
void compute(int, int);
void *extract(const char *, int &);
void init_style();
double memory_usage();
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputePolar<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputePolar<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeLJCoulomb<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeLJCoulomb<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeTabulatedLJCoulomb<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeTabulatedLJCoulomb<NEIGHFLAG,EVFLAG>, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBuildListsFull, const int&) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBuildListsHalf<NEIGHFLAG>, const int&) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBuildListsHalf_LessAtomics<NEIGHFLAG>, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxZero, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxZeroEAtom, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxZeroVAtom, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBondOrder1, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBondOrder1_LessAtomics, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBondOrder2, const int&) const;
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxBondOrder3, const int&) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxUpdateBond<NEIGHFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeBond1<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeBond1<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeBond2<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeBond2<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeMulti1<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeMulti2<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeMulti2<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeAngular<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeAngular<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeTorsion<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeTorsion<NEIGHFLAG,EVFLAG>, const int&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeHydrogen<NEIGHFLAG,EVFLAG>, const int&, EV_FLOAT_REAX&) const;
template<int NEIGHFLAG, int EVFLAG>
KOKKOS_INLINE_FUNCTION
void operator()(PairReaxComputeHydrogen<NEIGHFLAG,EVFLAG>, const int&) const;
struct params_sing{
KOKKOS_INLINE_FUNCTION
params_sing(){mass=0;chi=0;eta=0;r_s=0;r_pi=0;r_pi2=0;valency=0;valency_val=0;valency_e=0;valency_boc=0;nlp_opt=0;
p_lp2=0;p_ovun2=0;p_ovun5=0;p_val3=0;p_val5=0;p_hbond=0;};
KOKKOS_INLINE_FUNCTION
params_sing(int i){mass=0;chi=0;eta=0;r_s=0;r_pi=0;r_pi2=0;valency=0;valency_val=0;valency_e=0;valency_boc=0;nlp_opt=0;
p_lp2=0;p_ovun2=0;p_ovun5=0;p_val3=0;p_val5=0;p_hbond=0;};
F_FLOAT mass,chi,eta,r_s,r_pi,r_pi2,valency,valency_val,valency_e,valency_boc,nlp_opt,
p_lp2,p_ovun2,p_ovun5, p_val3, p_val5, p_hbond;
};
struct params_twbp{
KOKKOS_INLINE_FUNCTION
params_twbp(){gamma=0;gamma_w=0;alpha=0;r_vdw=0;epsilon=0;acore=0;ecore=0;rcore=0;lgre=0;lgcij=0;
r_s=0;r_pi=0;r_pi2=0;p_bo1=0;p_bo2=0;p_bo3=0;p_bo4=0;p_bo5=0;p_bo6=0;ovc=0;v13cor=0;
p_boc3=0;p_boc4=0;p_boc5=0;p_be1=0,p_be2=0,De_s=0,De_p=0;De_pp=0;
p_ovun1=0;};
KOKKOS_INLINE_FUNCTION
params_twbp(int i){gamma=0;gamma_w=0;alpha=0;r_vdw=0;epsilon=0;acore=0;ecore=0;rcore=0;lgre=0;lgcij=0;
r_s=0;r_pi=0;r_pi2=0;p_bo1=0;p_bo2=0;p_bo3=0;p_bo4=0;p_bo5=0;p_bo6=0;ovc=0;v13cor=0;
p_boc3=0;p_boc4=0;p_boc5=0;p_be1=0,p_be2=0,De_s=0,De_p=0;De_pp=0;
p_ovun1=0;};
F_FLOAT gamma,gamma_w,alpha,r_vdw,epsilon,acore,ecore,rcore,lgre,lgcij,
r_s,r_pi,r_pi2,p_bo1,p_bo2,p_bo3,p_bo4,p_bo5,p_bo6,ovc,v13cor,
p_boc3,p_boc4,p_boc5,p_be1,p_be2,De_s,De_p,De_pp,
p_ovun1;
};
struct params_thbp{
KOKKOS_INLINE_FUNCTION
params_thbp(){cnt=0;theta_00=0;p_val1=0;p_val2=0;p_val4=0;p_val7=0;p_pen1=0;p_coa1=0;};
KOKKOS_INLINE_FUNCTION
params_thbp(int i){cnt=0;theta_00=0;p_val1=0;p_val2=0;p_val4=0;p_val7=0;p_pen1=0;p_coa1=0;};
F_FLOAT cnt, theta_00, p_val1, p_val2, p_val4, p_val7, p_pen1, p_coa1;
};
struct params_fbp{
KOKKOS_INLINE_FUNCTION
params_fbp(){p_tor1=0;p_cot1=0;V1=0;V2=0;V3=0;};
KOKKOS_INLINE_FUNCTION
params_fbp(int i){p_tor1=0;p_cot1=0;V1=0;V2=0;V3=0;};
F_FLOAT p_tor1, p_cot1, V1, V2, V3;
};
struct params_hbp{
KOKKOS_INLINE_FUNCTION
params_hbp(){p_hb1=0;p_hb2=0;p_hb3=0;r0_hb=0;};
KOKKOS_INLINE_FUNCTION
params_hbp(int i){p_hb1=0;p_hb2=0;p_hb3=0;r0_hb=0;};
F_FLOAT p_hb1, p_hb2, p_hb3, r0_hb;
};
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void ev_tally(EV_FLOAT_REAX &ev, const int &i, const int &j, const F_FLOAT &epair, const F_FLOAT &fpair, const F_FLOAT &delx,
const F_FLOAT &dely, const F_FLOAT &delz) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void e_tally(EV_FLOAT_REAX &ev, const int &i, const int &j, const F_FLOAT &epair) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void e_tally_single(EV_FLOAT_REAX &ev, const int &i, const F_FLOAT &epair) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void v_tally(EV_FLOAT_REAX &ev, const int &i, F_FLOAT *fi, F_FLOAT *drij) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void v_tally3(EV_FLOAT_REAX &ev, const int &i, const int &j, const int &k,
F_FLOAT *fj, F_FLOAT *fk, F_FLOAT *drij, F_FLOAT *drik) const;
KOKKOS_INLINE_FUNCTION
void v_tally3_atom(EV_FLOAT_REAX &ev, const int &i, const int &j, const int &k,
F_FLOAT *fj, F_FLOAT *fk, F_FLOAT *drji, F_FLOAT *drjk) const;
template<int NEIGHFLAG>
KOKKOS_INLINE_FUNCTION
void v_tally4(EV_FLOAT_REAX &ev, const int &i, const int &j, const int &k, const int &l,
F_FLOAT *fi, F_FLOAT *fj, F_FLOAT *fk, F_FLOAT *dril, F_FLOAT *drjl, F_FLOAT *drkl) const;
protected:
void cleanup_copy();
void allocate();
void allocate_array();
void setup();
void init_md();
int Init_Lookup_Tables();
void Deallocate_Lookup_Tables();
void LR_vdW_Coulomb( int i, int j, double r_ij, LR_data *lr );
typedef Kokkos::DualView<int*,DeviceType> tdual_int_1d;
Kokkos::DualView<params_sing*,typename DeviceType::array_layout,DeviceType> k_params_sing;
typename Kokkos::DualView<params_sing*,typename DeviceType::array_layout,DeviceType>::t_dev_const paramssing;
typedef Kokkos::DualView<int**,DeviceType> tdual_int_2d;
Kokkos::DualView<params_twbp**,typename DeviceType::array_layout,DeviceType> k_params_twbp;
typename Kokkos::DualView<params_twbp**,typename DeviceType::array_layout,DeviceType>::t_dev_const paramstwbp;
typedef Kokkos::DualView<int***,DeviceType> tdual_int_3d;
Kokkos::DualView<params_thbp***,typename DeviceType::array_layout,DeviceType> k_params_thbp;
typename Kokkos::DualView<params_thbp***,typename DeviceType::array_layout,DeviceType>::t_dev_const paramsthbp;
Kokkos::DualView<params_hbp***,typename DeviceType::array_layout,DeviceType> k_params_hbp;
typename Kokkos::DualView<params_hbp***,typename DeviceType::array_layout,DeviceType>::t_dev_const paramshbp;
typedef Kokkos::DualView<int****,DeviceType> tdual_int_4d;
Kokkos::DualView<params_fbp****,typename DeviceType::array_layout,DeviceType> k_params_fbp;
typename Kokkos::DualView<params_fbp****,typename DeviceType::array_layout,DeviceType>::t_dev_const paramsfbp;
typename AT::t_x_array_randomread x;
typename AT::t_f_array f;
typename AT::t_int_1d_randomread type;
typename AT::t_tagint_1d tag;
typename AT::t_float_1d_randomread q;
DAT::tdual_efloat_1d k_eatom;
typename AT::t_efloat_1d v_eatom;
DAT::tdual_virial_array k_vatom;
DAT::t_virial_array d_vatom;
typename AT::t_virial_array v_vatom;
HAT::t_virial_array h_vatom;
DAT::tdual_float_1d k_tap;
DAT::t_float_1d d_tap;
HAT::t_float_1d h_tap;
typename AT::t_float_1d d_bo_rij, d_hb_rsq, d_Deltap, d_Deltap_boc, d_total_bo;
typename AT::t_float_1d d_Delta, d_Delta_boc, d_Delta_lp, d_dDelta_lp, d_Delta_lp_temp, d_CdDelta;
typename AT::t_ffloat_2d_dl d_BO, d_BO_s, d_BO_pi, d_BO_pi2, d_dBOp;
typename AT::t_ffloat_2d_dl d_dln_BOp_pix, d_dln_BOp_piy, d_dln_BOp_piz;
typename AT::t_ffloat_2d_dl d_dln_BOp_pi2x, d_dln_BOp_pi2y, d_dln_BOp_pi2z;
typename AT::t_ffloat_2d_dl d_C1dbo, d_C2dbo, d_C3dbo;
typename AT::t_ffloat_2d_dl d_C1dbopi, d_C2dbopi, d_C3dbopi, d_C4dbopi;
typename AT::t_ffloat_2d_dl d_C1dbopi2, d_C2dbopi2, d_C3dbopi2, d_C4dbopi2;
typename AT::t_ffloat_2d_dl d_Cdbo, d_Cdbopi, d_Cdbopi2, d_dDeltap_self;
typedef Kokkos::DualView<F_FLOAT**[7],typename DeviceType::array_layout,DeviceType> tdual_ffloat_2d_n7;
typedef typename tdual_ffloat_2d_n7::t_dev_const_randomread t_ffloat_2d_n7_randomread;
typedef typename tdual_ffloat_2d_n7::t_host t_host_ffloat_2d_n7;
typename ArrayTypes<DeviceType>::t_neighbors_2d d_neighbors;
typename ArrayTypes<DeviceType>::t_int_1d_randomread d_ilist;
typename ArrayTypes<DeviceType>::t_int_1d_randomread d_numneigh;
typename AT::t_int_1d d_bo_first, d_bo_num, d_bo_list, d_hb_first, d_hb_num, d_hb_list;
DAT::tdual_int_scalar k_resize_bo, k_resize_hb;
typename AT::t_int_scalar d_resize_bo, d_resize_hb;
typename AT::t_ffloat_2d_dl d_sum_ovun;
typename AT::t_ffloat_2d_dl d_dBOpx, d_dBOpy, d_dBOpz;
class AtomKokkos *atomKK;
int neighflag,newton_pair, maxnumneigh, maxhb, maxbo;
int nlocal,nall,eflag,vflag;
F_FLOAT cut_nbsq, cut_hbsq, cut_bosq, bo_cut, thb_cut, thb_cutsq;
int vdwflag, lgflag;
F_FLOAT gp[39], p_boc1, p_boc2;
friend void pair_virial_fdotr_compute<PairReaxCKokkos>(PairReaxCKokkos*);
int bocnt,hbcnt;
typedef Kokkos::DualView<LR_lookup_table_kk**,LMPDeviceType::array_layout,DeviceType> tdual_LR_lookup_table_kk_2d;
typedef typename tdual_LR_lookup_table_kk_2d::t_dev t_LR_lookup_table_kk_2d;
tdual_LR_lookup_table_kk_2d k_LR;
t_LR_lookup_table_kk_2d d_LR;
};
}
#endif
#endif
/* ERROR/WARNING messages:
*/

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