forked from lijiext/lammps
319 lines
12 KiB
C++
319 lines
12 KiB
C++
/***************************************************************************
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gayberne.cpp
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-------------------
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W. Michael Brown (ORNL)
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Host code for Gay-Berne potential acceleration
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__________________________________________________________________________
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This file is part of the LAMMPS Accelerator Library (LAMMPS_AL)
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__________________________________________________________________________
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begin :
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email : brownw@ornl.gov
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***************************************************************************/
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#if defined(USE_OPENCL)
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#include "gayberne_cl.h"
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#include "gayberne_lj_cl.h"
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#elif defined(USE_CUDART)
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const char *gayberne=0;
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const char *gayberne_lj=0;
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#else
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#include "gayberne_cubin.h"
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#include "gayberne_lj_cubin.h"
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#endif
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#include "lal_gayberne.h"
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#include <cassert>
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namespace LAMMPS_AL {
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#define GayBerneT GayBerne<numtyp, acctyp>
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extern Device<PRECISION,ACC_PRECISION> device;
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template <class numtyp, class acctyp>
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GayBerneT::GayBerne() : BaseEllipsoid<numtyp,acctyp>(),
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_allocated(false) {
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}
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template <class numtyp, class acctyp>
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GayBerneT::~GayBerne() {
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clear();
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}
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template <class numtyp, class acctyp>
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int GayBerneT::bytes_per_atom(const int max_nbors) const {
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return this->bytes_per_atom(max_nbors);
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}
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template <class numtyp, class acctyp>
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int GayBerneT::init(const int ntypes, const double gamma,
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const double upsilon, const double mu,
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double **host_shape, double **host_well,
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double **host_cutsq, double **host_sigma,
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double **host_epsilon, double *host_lshape,
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int **h_form, double **host_lj1, double **host_lj2,
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double **host_lj3, double **host_lj4,
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double **host_offset, const double *host_special_lj,
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const int nlocal, const int nall, const int max_nbors,
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const int maxspecial, const double cell_size,
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const double gpu_split, FILE *_screen) {
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int success;
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success=this->init_base(nlocal,nall,max_nbors,maxspecial,cell_size,gpu_split,
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_screen,ntypes,h_form,gayberne,gayberne_lj,
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"k_gayberne");
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if (success!=0)
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return success;
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// If atom type constants fit in shared memory use fast kernel
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int lj_types=ntypes;
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_shared_types=false;
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int max_shared_types=this->device->max_shared_types();
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if (lj_types<=max_shared_types && this->block_size()>=max_shared_types) {
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lj_types=max_shared_types;
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_shared_types=true;
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}
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_lj_types=lj_types;
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// Allocate a host write buffer for copying type data
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UCL_H_Vec<numtyp> host_write(lj_types*lj_types*32,*(this->ucl_device),
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UCL_WRITE_ONLY);
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for (int i=0; i<lj_types*lj_types; i++)
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host_write[i]=0.0;
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sigma_epsilon.alloc(lj_types*lj_types,*(this->ucl_device),UCL_READ_ONLY);
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this->atom->type_pack2(ntypes,lj_types,sigma_epsilon,host_write,
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host_sigma,host_epsilon);
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this->cut_form.alloc(lj_types*lj_types,*(this->ucl_device),UCL_READ_ONLY);
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this->atom->type_pack2(ntypes,lj_types,this->cut_form,host_write,
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host_cutsq,h_form);
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lj1.alloc(lj_types*lj_types,*(this->ucl_device),UCL_READ_ONLY);
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this->atom->type_pack4(ntypes,lj_types,lj1,host_write,host_lj1,host_lj2,
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host_cutsq,h_form);
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lj3.alloc(lj_types*lj_types,*(this->ucl_device),UCL_READ_ONLY);
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this->atom->type_pack4(ntypes,lj_types,lj3,host_write,host_lj3,host_lj4,
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host_offset);
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dev_error.alloc(1,*(this->ucl_device),UCL_WRITE_ONLY);
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dev_error.zero();
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// Allocate, cast and asynchronous memcpy of constant data
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// Copy data for bonded interactions
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gamma_upsilon_mu.alloc(7,*(this->ucl_device),UCL_READ_ONLY);
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host_write[0]=static_cast<numtyp>(gamma);
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host_write[1]=static_cast<numtyp>(upsilon);
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host_write[2]=static_cast<numtyp>(mu);
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host_write[3]=static_cast<numtyp>(host_special_lj[0]);
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host_write[4]=static_cast<numtyp>(host_special_lj[1]);
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host_write[5]=static_cast<numtyp>(host_special_lj[2]);
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host_write[6]=static_cast<numtyp>(host_special_lj[3]);
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ucl_copy(gamma_upsilon_mu,host_write,7,false);
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lshape.alloc(ntypes,*(this->ucl_device),UCL_READ_ONLY);
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UCL_H_Vec<double> d_view;
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d_view.view(host_lshape,lshape.numel(),*(this->ucl_device));
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ucl_copy(lshape,d_view,false);
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// Copy shape, well, sigma, epsilon, and cutsq onto GPU
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// - cast if necessary
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shape.alloc(ntypes,*(this->ucl_device),UCL_READ_ONLY);
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for (int i=0; i<ntypes; i++) {
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host_write[i*4]=host_shape[i][0];
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host_write[i*4+1]=host_shape[i][1];
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host_write[i*4+2]=host_shape[i][2];
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}
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UCL_H_Vec<numtyp4> view4;
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view4.view((numtyp4*)host_write.begin(),shape.numel(),*(this->ucl_device));
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ucl_copy(shape,view4,false);
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well.alloc(ntypes,*(this->ucl_device),UCL_READ_ONLY);
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for (int i=0; i<ntypes; i++) {
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host_write[i*4]=host_well[i][0];
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host_write[i*4+1]=host_well[i][1];
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host_write[i*4+2]=host_well[i][2];
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}
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view4.view((numtyp4*)host_write.begin(),well.numel(),*(this->ucl_device));
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ucl_copy(well,view4,false);
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_allocated=true;
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this->_max_bytes=sigma_epsilon.row_bytes()+this->cut_form.row_bytes()+
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lj1.row_bytes()+lj3.row_bytes()+gamma_upsilon_mu.row_bytes()+
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lshape.row_bytes()+shape.row_bytes()+well.row_bytes();
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return 0;
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}
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template <class numtyp, class acctyp>
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void GayBerneT::clear() {
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if (!_allocated)
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return;
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UCL_H_Vec<int> err_flag(1,*(this->ucl_device));
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ucl_copy(err_flag,dev_error,false);
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if (err_flag[0] == 2)
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std::cerr << "BAD MATRIX INVERSION IN FORCE COMPUTATION.\n";
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err_flag.clear();
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_allocated=false;
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dev_error.clear();
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lj1.clear();
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lj3.clear();
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sigma_epsilon.clear();
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this->cut_form.clear();
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shape.clear();
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well.clear();
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lshape.clear();
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gamma_upsilon_mu.clear();
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this->clear_base();
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}
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template <class numtyp, class acctyp>
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double GayBerneT::host_memory_usage() const {
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return this->host_memory_usage_base()+sizeof(GayBerneT)+
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4*sizeof(numtyp);
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}
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// ---------------------------------------------------------------------------
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// Calculate energies, forces, and torques
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// ---------------------------------------------------------------------------
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template <class numtyp, class acctyp>
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void GayBerneT::loop(const bool _eflag, const bool _vflag) {
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const int BX=this->block_size();
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int eflag, vflag;
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if (_eflag)
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eflag=1;
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else
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eflag=0;
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if (_vflag)
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vflag=1;
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else
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vflag=0;
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int GX=0, NGX;
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int stride=this->nbor->nbor_pitch();
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int ainum=this->ans->inum();
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if (this->_multiple_forms) {
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this->time_nbor1.start();
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if (this->_last_ellipse>0) {
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// ------------ ELLIPSE_ELLIPSE and ELLIPSE_SPHERE ---------------
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GX=static_cast<int>(ceil(static_cast<double>(this->_last_ellipse)/
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(BX/this->_threads_per_atom)));
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NGX=static_cast<int>(ceil(static_cast<double>(this->_last_ellipse)/BX));
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this->pack_nbors(NGX,BX, 0, this->_last_ellipse,ELLIPSE_SPHERE,
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ELLIPSE_ELLIPSE,_shared_types,_lj_types);
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this->time_nbor1.stop();
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this->time_ellipsoid.start();
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this->k_ellipsoid.set_size(GX,BX);
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this->k_ellipsoid.run(&this->atom->x, &this->atom->quat,
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&this->shape, &this->well, &this->gamma_upsilon_mu,
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&this->sigma_epsilon, &this->_lj_types,
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&this->lshape, &this->nbor->dev_nbor, &stride,
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&this->ans->force, &ainum, &this->ans->engv,
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&this->dev_error, &eflag, &vflag,
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&this->_last_ellipse, &this->_threads_per_atom);
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this->time_ellipsoid.stop();
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if (this->_last_ellipse==this->ans->inum()) {
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this->time_nbor2.start();
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this->time_nbor2.stop();
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this->time_ellipsoid2.start();
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this->time_ellipsoid2.stop();
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this->time_lj.start();
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this->time_lj.stop();
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return;
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}
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// ------------ SPHERE_ELLIPSE ---------------
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this->time_nbor2.start();
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GX=static_cast<int>(ceil(static_cast<double>(this->ans->inum()-
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this->_last_ellipse)/
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(BX/this->_threads_per_atom)));
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NGX=static_cast<int>(ceil(static_cast<double>(this->ans->inum()-
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this->_last_ellipse)/BX));
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this->pack_nbors(NGX,BX,this->_last_ellipse,this->ans->inum(),
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SPHERE_ELLIPSE,SPHERE_ELLIPSE,_shared_types,_lj_types);
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this->time_nbor2.stop();
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this->time_ellipsoid2.start();
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this->k_sphere_ellipsoid.set_size(GX,BX);
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this->k_sphere_ellipsoid.run(&this->atom->x, &this->atom->quat,
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&this->shape, &this->well,
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&this->gamma_upsilon_mu,
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&this->sigma_epsilon, &this->_lj_types,
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&this->lshape, &this->nbor->dev_nbor,
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&stride, &this->ans->force,
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&this->ans->engv, &this->dev_error,
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&eflag, &vflag, &this->_last_ellipse,
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&ainum, &this->_threads_per_atom);
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this->time_ellipsoid2.stop();
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} else {
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GX=static_cast<int>(ceil(static_cast<double>(this->ans->inum()-
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this->_last_ellipse)/
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(BX/this->_threads_per_atom)));
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this->ans->force.zero();
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this->ans->engv.zero();
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this->time_nbor1.stop();
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this->time_ellipsoid.start();
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this->time_ellipsoid.stop();
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this->time_nbor2.start();
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this->time_nbor2.stop();
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this->time_ellipsoid2.start();
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this->time_ellipsoid2.stop();
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}
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// ------------ LJ ---------------
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this->time_lj.start();
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if (this->_last_ellipse<this->ans->inum()) {
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if (this->_shared_types) {
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this->k_lj_fast.set_size(GX,BX);
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this->k_lj_fast.run(&this->atom->x, &this->lj1, &this->lj3,
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&this->gamma_upsilon_mu, &stride,
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&this->nbor->dev_packed, &this->ans->force,
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&this->ans->engv, &this->dev_error, &eflag,
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&vflag, &this->_last_ellipse, &ainum,
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&this->_threads_per_atom);
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} else {
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this->k_lj.set_size(GX,BX);
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this->k_lj.run(&this->atom->x, &this->lj1, &this->lj3,
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&this->_lj_types, &this->gamma_upsilon_mu, &stride,
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&this->nbor->dev_packed, &this->ans->force,
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&this->ans->engv, &this->dev_error, &eflag,
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&vflag, &this->_last_ellipse, &ainum,
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&this->_threads_per_atom);
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}
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}
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this->time_lj.stop();
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} else {
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GX=static_cast<int>(ceil(static_cast<double>(this->ans->inum())/
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(BX/this->_threads_per_atom)));
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NGX=static_cast<int>(ceil(static_cast<double>(this->ans->inum())/BX));
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this->time_nbor1.start();
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this->pack_nbors(NGX, BX, 0, this->ans->inum(),SPHERE_SPHERE,
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ELLIPSE_ELLIPSE,_shared_types,_lj_types);
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this->time_nbor1.stop();
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this->time_ellipsoid.start();
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this->k_ellipsoid.set_size(GX,BX);
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this->k_ellipsoid.run(&this->atom->x, &this->atom->quat,
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&this->shape, &this->well, &this->gamma_upsilon_mu,
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&this->sigma_epsilon, &this->_lj_types, &this->lshape,
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&this->nbor->dev_nbor, &stride, &this->ans->force,
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&ainum, &this->ans->engv, &this->dev_error,
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&eflag, &vflag, &ainum, &this->_threads_per_atom);
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this->time_ellipsoid.stop();
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}
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}
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template class GayBerne<PRECISION,ACC_PRECISION>;
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}
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