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MD-Bench/default/pbc.c
Rafael Ravedutti df09c2861e Add first version with more than one optimization scheme 
Signed-off-by: Rafael Ravedutti <rafaelravedutti@gmail.com>
2022-01-17 14:15:02 +01:00

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/*
* =======================================================================================
*
* Author: Jan Eitzinger (je), jan.eitzinger@fau.de
* Copyright (c) 2020 RRZE, University Erlangen-Nuremberg
*
* This file is part of MD-Bench.
*
* MD-Bench is free software: you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* MD-Bench is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
* details.
*
* You should have received a copy of the GNU Lesser General Public License along
* with MD-Bench. If not, see <https://www.gnu.org/licenses/>.
* =======================================================================================
*/
#include <stdlib.h>
#include <stdio.h>
#include <pbc.h>
#include <atom.h>
#include <allocate.h>
#define DELTA 20000
static int NmaxGhost;
static int *PBCx, *PBCy, *PBCz;
static void growPbc(Atom*);
/* exported subroutines */
void initPbc(Atom* atom)
{
NmaxGhost = 0;
atom->border_map = NULL;
PBCx = NULL; PBCy = NULL; PBCz = NULL;
}
/* update coordinates of ghost atoms */
/* uses mapping created in setupPbc */
void updatePbc(Atom *atom, Parameter *param)
{
int *border_map = atom->border_map;
int nlocal = atom->Nlocal;
MD_FLOAT xprd = param->xprd;
MD_FLOAT yprd = param->yprd;
MD_FLOAT zprd = param->zprd;
for(int i = 0; i < atom->Nghost; i++) {
atom_x(nlocal + i) = atom_x(border_map[i]) + PBCx[i] * xprd;
atom_y(nlocal + i) = atom_y(border_map[i]) + PBCy[i] * yprd;
atom_z(nlocal + i) = atom_z(border_map[i]) + PBCz[i] * zprd;
}
}
/* relocate atoms that have left domain according
* to periodic boundary conditions */
void updateAtomsPbc(Atom *atom, Parameter *param)
{
MD_FLOAT xprd = param->xprd;
MD_FLOAT yprd = param->yprd;
MD_FLOAT zprd = param->zprd;
for(int i = 0; i < atom->Nlocal; i++) {
if(atom_x(i) < 0.0) {
atom_x(i) += xprd;
} else if(atom_x(i) >= xprd) {
atom_x(i) -= xprd;
}
if(atom_y(i) < 0.0) {
atom_y(i) += yprd;
} else if(atom_y(i) >= yprd) {
atom_y(i) -= yprd;
}
if(atom_z(i) < 0.0) {
atom_z(i) += zprd;
} else if(atom_z(i) >= zprd) {
atom_z(i) -= zprd;
}
}
}
/* setup periodic boundary conditions by
* defining ghost atoms around domain
* only creates mapping and coordinate corrections
* that are then enforced in updatePbc */
#define ADDGHOST(dx,dy,dz) \
Nghost++; \
border_map[Nghost] = i; \
PBCx[Nghost] = dx; \
PBCy[Nghost] = dy; \
PBCz[Nghost] = dz; \
atom->type[atom->Nlocal + Nghost] = atom->type[i]
void setupPbc(Atom *atom, Parameter *param)
{
int *border_map = atom->border_map;
MD_FLOAT xprd = param->xprd;
MD_FLOAT yprd = param->yprd;
MD_FLOAT zprd = param->zprd;
MD_FLOAT Cutneigh = param->cutneigh;
int Nghost = -1;
for(int i = 0; i < atom->Nlocal; i++) {
if (atom->Nlocal + Nghost + 7 >= atom->Nmax) {
growAtom(atom);
}
if (Nghost + 7 >= NmaxGhost) {
growPbc(atom);
border_map = atom->border_map;
}
MD_FLOAT x = atom_x(i);
MD_FLOAT y = atom_y(i);
MD_FLOAT z = atom_z(i);
/* Setup ghost atoms */
/* 6 planes */
if (x < Cutneigh) { ADDGHOST(+1,0,0); }
if (x >= (xprd-Cutneigh)) { ADDGHOST(-1,0,0); }
if (y < Cutneigh) { ADDGHOST(0,+1,0); }
if (y >= (yprd-Cutneigh)) { ADDGHOST(0,-1,0); }
if (z < Cutneigh) { ADDGHOST(0,0,+1); }
if (z >= (zprd-Cutneigh)) { ADDGHOST(0,0,-1); }
/* 8 corners */
if (x < Cutneigh && y < Cutneigh && z < Cutneigh) { ADDGHOST(+1,+1,+1); }
if (x < Cutneigh && y >= (yprd-Cutneigh) && z < Cutneigh) { ADDGHOST(+1,-1,+1); }
if (x < Cutneigh && y >= Cutneigh && z >= (zprd-Cutneigh)) { ADDGHOST(+1,+1,-1); }
if (x < Cutneigh && y >= (yprd-Cutneigh) && z >= (zprd-Cutneigh)) { ADDGHOST(+1,-1,-1); }
if (x >= (xprd-Cutneigh) && y < Cutneigh && z < Cutneigh) { ADDGHOST(-1,+1,+1); }
if (x >= (xprd-Cutneigh) && y >= (yprd-Cutneigh) && z < Cutneigh) { ADDGHOST(-1,-1,+1); }
if (x >= (xprd-Cutneigh) && y < Cutneigh && z >= (zprd-Cutneigh)) { ADDGHOST(-1,+1,-1); }
if (x >= (xprd-Cutneigh) && y >= (yprd-Cutneigh) && z >= (zprd-Cutneigh)) { ADDGHOST(-1,-1,-1); }
/* 12 edges */
if (x < Cutneigh && z < Cutneigh) { ADDGHOST(+1,0,+1); }
if (x < Cutneigh && z >= (zprd-Cutneigh)) { ADDGHOST(+1,0,-1); }
if (x >= (xprd-Cutneigh) && z < Cutneigh) { ADDGHOST(-1,0,+1); }
if (x >= (xprd-Cutneigh) && z >= (zprd-Cutneigh)) { ADDGHOST(-1,0,-1); }
if (y < Cutneigh && z < Cutneigh) { ADDGHOST(0,+1,+1); }
if (y < Cutneigh && z >= (zprd-Cutneigh)) { ADDGHOST(0,+1,-1); }
if (y >= (yprd-Cutneigh) && z < Cutneigh) { ADDGHOST(0,-1,+1); }
if (y >= (yprd-Cutneigh) && z >= (zprd-Cutneigh)) { ADDGHOST(0,-1,-1); }
if (y < Cutneigh && x < Cutneigh) { ADDGHOST(+1,+1,0); }
if (y < Cutneigh && x >= (xprd-Cutneigh)) { ADDGHOST(-1,+1,0); }
if (y >= (yprd-Cutneigh) && x < Cutneigh) { ADDGHOST(+1,-1,0); }
if (y >= (yprd-Cutneigh) && x >= (xprd-Cutneigh)) { ADDGHOST(-1,-1,0); }
}
// increase by one to make it the ghost atom count
atom->Nghost = Nghost + 1;
}
/* internal subroutines */
void growPbc(Atom* atom)
{
int nold = NmaxGhost;
NmaxGhost += DELTA;
atom->border_map = (int*) reallocate(atom->border_map, ALIGNMENT, NmaxGhost * sizeof(int), nold * sizeof(int));
PBCx = (int*) reallocate(PBCx, ALIGNMENT, NmaxGhost * sizeof(int), nold * sizeof(int));
PBCy = (int*) reallocate(PBCy, ALIGNMENT, NmaxGhost * sizeof(int), nold * sizeof(int));
PBCz = (int*) reallocate(PBCz, ALIGNMENT, NmaxGhost * sizeof(int), nold * sizeof(int));
}
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