Add Kokkos version of pair_style soft

2024-06-04 13:57:51 -06:00
parent e8ee0d9e71
commit 984d39366e
5 changed files with 374 additions and 1 deletions
--- a/src/KOKKOS/Install.sh
+++ b/src/KOKKOS/Install.sh
@ -363,6 +363,8 @@ action pair_reaxff_kokkos.h pair_reaxff.h
 action pair_snap_kokkos_impl.h pair_snap.cpp
 action pair_snap_kokkos.cpp pair_snap.cpp
 action pair_snap_kokkos.h pair_snap.h
 action pair_soft_kokkos.cpp
 action pair_soft_kokkos.h
 action pair_sw_kokkos.cpp pair_sw.cpp
 action pair_sw_kokkos.h pair_sw.h
 action pair_table_kokkos.cpp
--- a/src/KOKKOS/pair_soft_kokkos.cpp
+++ b/src/KOKKOS/pair_soft_kokkos.cpp
@ -0,0 +1,255 @@
 // clang-format off
 /* ----------------------------------------------------------------------
   LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
   https://www.lammps.org/, Sandia National Laboratories
   LAMMPS development team: developers@lammps.org
   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.
 ------------------------------------------------------------------------- */
 #include "pair_soft_kokkos.h"
 #include "atom_kokkos.h"
 #include "atom_masks.h"
 #include "error.h"
 #include "force.h"
 #include "kokkos.h"
 #include "math_const.h"
 #include "memory_kokkos.h"
 #include "neigh_request.h"
 #include "neighbor.h"
 #include "respa.h"
 #include "update.h"
 using namespace LAMMPS_NS;
 using namespace MathConst;
 /* ---------------------------------------------------------------------- */
 template<class DeviceType>
 PairSoftKokkos<DeviceType>::PairSoftKokkos(LAMMPS *lmp) : PairSoft(lmp)
 {
  respa_enable = 0;
  kokkosable = 1;
  atomKK = (AtomKokkos *) atom;
  execution_space = ExecutionSpaceFromDevice<DeviceType>::space;
  datamask_read = X_MASK | F_MASK | TYPE_MASK | ENERGY_MASK | VIRIAL_MASK;
  datamask_modify = F_MASK | ENERGY_MASK | VIRIAL_MASK;
 }
 /* ---------------------------------------------------------------------- */
 template<class DeviceType>
 PairSoftKokkos<DeviceType>::~PairSoftKokkos()
 {
  if (copymode) return;
  if (allocated) {
    memoryKK->destroy_kokkos(k_eatom,eatom);
    memoryKK->destroy_kokkos(k_vatom,vatom);
    memoryKK->destroy_kokkos(k_cutsq,cutsq);
  }
 }
 /* ---------------------------------------------------------------------- */
 template<class DeviceType>
 void PairSoftKokkos<DeviceType>::compute(int eflag_in, int vflag_in)
 {
  eflag = eflag_in;
  vflag = vflag_in;
  if (neighflag == FULL) no_virial_fdotr_compute = 1;
  ev_init(eflag,vflag,0);
  // reallocate per-atom arrays if necessary
  if (eflag_atom) {
    memoryKK->destroy_kokkos(k_eatom,eatom);
    memoryKK->create_kokkos(k_eatom,eatom,maxeatom,"pair:eatom");
    d_eatom = k_eatom.view<DeviceType>();
  }
  if (vflag_atom) {
    memoryKK->destroy_kokkos(k_vatom,vatom);
    memoryKK->create_kokkos(k_vatom,vatom,maxvatom,"pair:vatom");
    d_vatom = k_vatom.view<DeviceType>();
  }
  atomKK->sync(execution_space,datamask_read);
  k_cutsq.template sync<DeviceType>();
  k_params.template sync<DeviceType>();
  if (eflag || vflag) atomKK->modified(execution_space,datamask_modify);
  else atomKK->modified(execution_space,F_MASK);
  x = atomKK->k_x.view<DeviceType>();
  c_x = atomKK->k_x.view<DeviceType>();
  f = atomKK->k_f.view<DeviceType>();
  type = atomKK->k_type.view<DeviceType>();
  nlocal = atom->nlocal;
  nall = atom->nlocal + atom->nghost;
  newton_pair = force->newton_pair;
  special_lj[0] = force->special_lj[0];
  special_lj[1] = force->special_lj[1];
  special_lj[2] = force->special_lj[2];
  special_lj[3] = force->special_lj[3];
  // loop over neighbors of my atoms
  copymode = 1;
  EV_FLOAT ev = pair_compute<PairSoftKokkos<DeviceType>,void >(this,(NeighListKokkos<DeviceType>*)list);
  if (eflag_global) eng_vdwl += ev.evdwl;
  if (vflag_global) {
    virial[0] += ev.v[0];
    virial[1] += ev.v[1];
    virial[2] += ev.v[2];
    virial[3] += ev.v[3];
    virial[4] += ev.v[4];
    virial[5] += ev.v[5];
  }
  if (eflag_atom) {
    k_eatom.template modify<DeviceType>();
    k_eatom.template sync<LMPHostType>();
  }
  if (vflag_atom) {
    k_vatom.template modify<DeviceType>();
    k_vatom.template sync<LMPHostType>();
  }
  if (vflag_fdotr) pair_virial_fdotr_compute(this);
  copymode = 0;
 }
 template<class DeviceType>
 template<bool STACKPARAMS, class Specialisation>
 KOKKOS_INLINE_FUNCTION
 F_FLOAT PairSoftKokkos<DeviceType>::
 compute_fpair(const F_FLOAT& rsq, const int& i, const int&j, const int& itype, const int& jtype) const {
  (void) i;
  const F_FLOAT r = sqrt(rsq);
  const F_FLOAT cut_ij = STACKPARAMS?m_params[itype][jtype].cut:params(itype,jtype).cut;
  const F_FLOAT prefactor_ij = STACKPARAMS?m_params[itype][jtype].prefactor:params(itype,jtype).prefactor;
  const F_FLOAT arg = MY_PI*r/cut_ij;
  F_FLOAT fpair = 0.0;
  if (r > 0.0) fpair = prefactor_ij *
                 sin(arg) * MY_PI/cut_ij/r;
  return fpair;
 }
 template<class DeviceType>
 template<bool STACKPARAMS, class Specialisation>
 KOKKOS_INLINE_FUNCTION
 F_FLOAT PairSoftKokkos<DeviceType>::
 compute_evdwl(const F_FLOAT& rsq, const int& i, const int&j, const int& itype, const int& jtype) const {
  (void) i;
  const F_FLOAT r = sqrt(rsq);
  const F_FLOAT cut_ij = STACKPARAMS?m_params[itype][jtype].cut:params(itype,jtype).cut;
  const F_FLOAT prefactor_ij = STACKPARAMS?m_params[itype][jtype].prefactor:params(itype,jtype).prefactor;
  const F_FLOAT arg = MY_PI*r/cut_ij;
  return prefactor_ij*(1.0+cos(arg));
 }
 /* ----------------------------------------------------------------------
   allocate all arrays
 ------------------------------------------------------------------------- */
 template<class DeviceType>
 void PairSoftKokkos<DeviceType>::allocate()
 {
  PairSoft::allocate();
  int n = atom->ntypes;
  memory->destroy(cutsq);
  memoryKK->create_kokkos(k_cutsq,cutsq,n+1,n+1,"pair:cutsq");
  d_cutsq = k_cutsq.template view<DeviceType>();
  k_params = Kokkos::DualView<params_soft**,Kokkos::LayoutRight,DeviceType>("PairSoft::params",n+1,n+1);
  params = k_params.template view<DeviceType>();
 }
 /* ----------------------------------------------------------------------
   global settings
 ------------------------------------------------------------------------- */
 template<class DeviceType>
 void PairSoftKokkos<DeviceType>::settings(int narg, char **arg)
 {
  if (narg > 2) error->all(FLERR,"Illegal pair_style command");
  PairSoft::settings(1,arg);
 }
 /* ----------------------------------------------------------------------
   init specific to this pair style
 ------------------------------------------------------------------------- */
 template<class DeviceType>
 void PairSoftKokkos<DeviceType>::init_style()
 {
  PairSoft::init_style();
  // error if rRESPA with inner levels
  if (update->whichflag == 1 && utils::strmatch(update->integrate_style,"^respa")) {
    int respa = 0;
    if (((Respa *) update->integrate)->level_inner >= 0) respa = 1;
    if (((Respa *) update->integrate)->level_middle >= 0) respa = 2;
    if (respa)
      error->all(FLERR,"Cannot use Kokkos pair style with rRESPA inner/middle");
  }
  // adjust neighbor list request for KOKKOS
  neighflag = lmp->kokkos->neighflag;
  auto request = neighbor->find_request(this);
  request->set_kokkos_host(std::is_same_v<DeviceType,LMPHostType> &&
                           !std::is_same_v<DeviceType,LMPDeviceType>);
  request->set_kokkos_device(std::is_same_v<DeviceType,LMPDeviceType>);
  if (neighflag == FULL) request->enable_full();
 }
 /* ----------------------------------------------------------------------
   init for one type pair i,j and corresponding j,i
 ------------------------------------------------------------------------- */
 template<class DeviceType>
 double PairSoftKokkos<DeviceType>::init_one(int i, int j)
 {
  double cutone = PairSoft::init_one(i,j);
  k_params.h_view(i,j).prefactor = prefactor[i][j];
  k_params.h_view(i,j).cut = cutone;
  k_params.h_view(i,j).cutsq = cutone*cutone;
  k_params.h_view(j,i) = k_params.h_view(i,j);
  if (i<MAX_TYPES_STACKPARAMS+1 && j<MAX_TYPES_STACKPARAMS+1) {
    m_params[i][j] = m_params[j][i] = k_params.h_view(i,j);
    m_cutsq[j][i] = m_cutsq[i][j] = cutone*cutone;
  }
  k_cutsq.h_view(i,j) = k_cutsq.h_view(j,i) = cutone*cutone;
  k_cutsq.template modify<LMPHostType>();
  k_params.template modify<LMPHostType>();
  return cutone;
 }
 namespace LAMMPS_NS {
 template class PairSoftKokkos<LMPDeviceType>;
 #ifdef LMP_KOKKOS_GPU
 template class PairSoftKokkos<LMPHostType>;
 #endif
 }
--- a/src/KOKKOS/pair_soft_kokkos.h
+++ b/src/KOKKOS/pair_soft_kokkos.h
@ -0,0 +1,114 @@
 /* -*- c++ -*- ----------------------------------------------------------
   LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
   https://www.lammps.org/, Sandia National Laboratories
   LAMMPS development team: developers@lammps.org
   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
 // clang-format off
 PairStyle(soft/kk,PairSoftKokkos<LMPDeviceType>);
 PairStyle(soft/kk/device,PairSoftKokkos<LMPDeviceType>);
 PairStyle(soft/kk/host,PairSoftKokkos<LMPHostType>);
 // clang-format on
 #else
 // clang-format off
 #ifndef LMP_PAIR_SOFT_KOKKOS_H
 #define LMP_PAIR_SOFT_KOKKOS_H
 #include "pair_kokkos.h"
 #include "pair_soft.h"
 #include "neigh_list_kokkos.h"
 namespace LAMMPS_NS {
 template<class DeviceType>
 class PairSoftKokkos : public PairSoft {
 public:
  enum {EnabledNeighFlags=FULL|HALFTHREAD|HALF};
  enum {COUL_FLAG=0};
  typedef DeviceType device_type;
  typedef ArrayTypes<DeviceType> AT;
  PairSoftKokkos(class LAMMPS *);
  ~PairSoftKokkos() override;
  void compute(int, int) override;
  void settings(int, char **) override;
  void init_style() override;
  double init_one(int, int) override;
  struct params_soft{
    KOKKOS_INLINE_FUNCTION
    params_soft() {cutsq=0,cut=0,prefactor=0;};
    KOKKOS_INLINE_FUNCTION
    params_soft(int /*i*/) {cutsq=0,cut=0,prefactor=0;};
    F_FLOAT cutsq,cut,prefactor;
  };
 protected:
  template<bool STACKPARAMS, class Specialisation>
  KOKKOS_INLINE_FUNCTION
  F_FLOAT compute_fpair(const F_FLOAT& rsq, const int& i, const int&j, const int& itype, const int& jtype) const;
  template<bool STACKPARAMS, class Specialisation>
  KOKKOS_INLINE_FUNCTION
  F_FLOAT compute_evdwl(const F_FLOAT& rsq, const int& i, const int&j, const int& itype, const int& jtype) const;
  template<bool STACKPARAMS, class Specialisation>
  KOKKOS_INLINE_FUNCTION
  F_FLOAT compute_ecoul(const F_FLOAT& /*rsq*/, const int& /*i*/, const int& /*j*/,
                        const int& /*itype*/, const int& /*jtype*/) const { return 0; }
  Kokkos::DualView<params_soft**,Kokkos::LayoutRight,DeviceType> k_params;
  typename Kokkos::DualView<params_soft**,Kokkos::LayoutRight,DeviceType>::t_dev_const_um params;
  params_soft m_params[MAX_TYPES_STACKPARAMS+1][MAX_TYPES_STACKPARAMS+1];  // hardwired to space for 12 atom types
  F_FLOAT m_cutsq[MAX_TYPES_STACKPARAMS+1][MAX_TYPES_STACKPARAMS+1];
  typename AT::t_x_array_randomread x;
  typename AT::t_x_array c_x;
  typename AT::t_f_array f;
  typename AT::t_int_1d_randomread type;
  DAT::tdual_efloat_1d k_eatom;
  DAT::tdual_virial_array k_vatom;
  typename AT::t_efloat_1d d_eatom;
  typename AT::t_virial_array d_vatom;
  int newton_pair;
  double special_lj[4];
  typename AT::tdual_ffloat_2d k_cutsq;
  typename AT::t_ffloat_2d d_cutsq;
  int neighflag;
  int nlocal,nall,eflag,vflag;
  void allocate() override;
  friend struct PairComputeFunctor<PairSoftKokkos,FULL,true,0>;
  friend struct PairComputeFunctor<PairSoftKokkos,FULL,true,1>;
  friend struct PairComputeFunctor<PairSoftKokkos,HALF,true>;
  friend struct PairComputeFunctor<PairSoftKokkos,HALFTHREAD,true>;
  friend struct PairComputeFunctor<PairSoftKokkos,FULL,false,0>;
  friend struct PairComputeFunctor<PairSoftKokkos,FULL,false,1>;
  friend struct PairComputeFunctor<PairSoftKokkos,HALF,false>;
  friend struct PairComputeFunctor<PairSoftKokkos,HALFTHREAD,false>;
  friend EV_FLOAT pair_compute_neighlist<PairSoftKokkos,FULL,0>(PairSoftKokkos*,NeighListKokkos<DeviceType>*);
  friend EV_FLOAT pair_compute_neighlist<PairSoftKokkos,FULL,1>(PairSoftKokkos*,NeighListKokkos<DeviceType>*);
  friend EV_FLOAT pair_compute_neighlist<PairSoftKokkos,HALF>(PairSoftKokkos*,NeighListKokkos<DeviceType>*);
  friend EV_FLOAT pair_compute_neighlist<PairSoftKokkos,HALFTHREAD>(PairSoftKokkos*,NeighListKokkos<DeviceType>*);
  friend EV_FLOAT pair_compute<PairSoftKokkos>(PairSoftKokkos*,NeighListKokkos<DeviceType>*);
  friend void pair_virial_fdotr_compute<PairSoftKokkos>(PairSoftKokkos*);
 };
 }
 #endif
 #endif
--- a/src/pair_soft.cpp
+++ b/src/pair_soft.cpp
@ -39,6 +39,8 @@ PairSoft::PairSoft(LAMMPS *lmp) : Pair(lmp)
 PairSoft::~PairSoft()
 {
  if (copymode) return;
  if (allocated) {
    memory->destroy(setflag);
    memory->destroy(cutsq);
--- a/src/pair_soft.h
+++ b/src/pair_soft.h
@ -49,7 +49,7 @@ class PairSoft : public Pair {
  double **prefactor;
  double **cut;
-  void allocate();
+  virtual void allocate();
 };
 }    // namespace LAMMPS_NS