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Sun, Oct 20, 00:40
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text/x-c++
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Tue, Oct 22, 00:40 (2 d)
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rLAMMPS lammps
pair_gauss_cut_omp.cpp
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/* ----------------------------------------------------------------------
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.
------------------------------------------------------------------------- */
/* ----------------------------------------------------------------------
Contributing authors: Arben Jusufi, Axel Kohlmeyer (Temple U.)
------------------------------------------------------------------------- */
#include "math.h"
#include "stdio.h"
#include "stdlib.h"
#include "string.h"
#include "pair_gauss_cut_omp.h"
#include "atom.h"
#include "comm.h"
#include "force.h"
#include "neighbor.h"
#include "neigh_list.h"
#include "update.h"
#include "integrate.h"
#include "memory.h"
#include "error.h"
using
namespace
LAMMPS_NS
;
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#define MAX(a,b) ((a) > (b) ? (a) : (b))
/* ---------------------------------------------------------------------- */
PairGaussCutOMP
::
PairGaussCutOMP
(
LAMMPS
*
lmp
)
:
PairOMP
(
lmp
)
{
respa_enable
=
0
;
}
/* ---------------------------------------------------------------------- */
PairGaussCutOMP
::~
PairGaussCutOMP
()
{
if
(
allocated
)
{
memory
->
destroy_2d_int_array
(
setflag
);
memory
->
destroy_2d_double_array
(
cutsq
);
memory
->
destroy_2d_double_array
(
cut
);
memory
->
destroy_2d_double_array
(
hgauss
);
memory
->
destroy_2d_double_array
(
sigmah
);
memory
->
destroy_2d_double_array
(
rmh
);
memory
->
destroy_2d_double_array
(
pgauss
);
memory
->
destroy_2d_double_array
(
offset
);
}
}
/* ---------------------------------------------------------------------- */
void
PairGaussCutOMP
::
compute
(
int
eflag
,
int
vflag
)
{
if
(
eflag
||
vflag
)
{
ev_setup
(
eflag
,
vflag
);
ev_setup_thr
(
eflag
,
vflag
);
}
else
evflag
=
vflag_fdotr
=
0
;
if
(
evflag
)
{
if
(
eflag
)
{
if
(
force
->
newton_pair
)
return
eval
<
1
,
1
,
1
>
();
else
return
eval
<
1
,
1
,
0
>
();
}
else
{
if
(
force
->
newton_pair
)
return
eval
<
1
,
0
,
1
>
();
else
return
eval
<
1
,
0
,
0
>
();
}
}
else
{
if
(
force
->
newton_pair
)
return
eval
<
0
,
0
,
1
>
();
else
return
eval
<
0
,
0
,
0
>
();
}
}
template
<
int
EVFLAG
,
int
EFLAG
,
int
NEWTON_PAIR
>
void
PairGaussCutOMP
::
eval
()
{
#if defined(_OPENMP)
#pragma omp parallel default(shared)
#endif
{
int
i
,
j
,
ii
,
jj
,
inum
,
jnum
,
itype
,
jtype
,
tid
;
double
xtmp
,
ytmp
,
ztmp
,
delx
,
dely
,
delz
,
evdwl
,
fpair
;
double
rsq
,
r
,
rexp
,
ugauss
,
factor_lj
;
int
*
ilist
,
*
jlist
,
*
numneigh
,
**
firstneigh
;
evdwl
=
0.0
;
const
int
nlocal
=
atom
->
nlocal
;
const
int
nall
=
nlocal
+
atom
->
nghost
;
const
int
nthreads
=
comm
->
nthreads
;
double
**
x
=
atom
->
x
;
double
**
f
=
atom
->
f
;
int
*
type
=
atom
->
type
;
double
*
special_lj
=
force
->
special_lj
;
inum
=
list
->
inum
;
ilist
=
list
->
ilist
;
numneigh
=
list
->
numneigh
;
firstneigh
=
list
->
firstneigh
;
// loop over neighbors of my atoms
int
iifrom
,
iito
;
f
=
loop_setup_thr
(
f
,
iifrom
,
iito
,
tid
,
inum
,
nall
,
nthreads
);
for
(
ii
=
iifrom
;
ii
<
iito
;
++
ii
)
{
i
=
ilist
[
ii
];
xtmp
=
x
[
i
][
0
];
ytmp
=
x
[
i
][
1
];
ztmp
=
x
[
i
][
2
];
itype
=
type
[
i
];
jlist
=
firstneigh
[
i
];
jnum
=
numneigh
[
i
];
for
(
jj
=
0
;
jj
<
jnum
;
jj
++
)
{
j
=
jlist
[
jj
];
if
(
j
<
nall
)
factor_lj
=
1.0
;
else
{
factor_lj
=
special_lj
[
j
/
nall
];
j
%=
nall
;
}
delx
=
xtmp
-
x
[
j
][
0
];
dely
=
ytmp
-
x
[
j
][
1
];
delz
=
ztmp
-
x
[
j
][
2
];
rsq
=
delx
*
delx
+
dely
*
dely
+
delz
*
delz
;
jtype
=
type
[
j
];
if
(
rsq
<
cutsq
[
itype
][
jtype
])
{
r
=
sqrt
(
rsq
);
rexp
=
(
r
-
rmh
[
itype
][
jtype
])
/
sigmah
[
itype
][
jtype
];
ugauss
=
pgauss
[
itype
][
jtype
]
*
exp
(
-
0.5
*
rexp
*
rexp
);
fpair
=
factor_lj
*
rexp
/
r
*
ugauss
/
sigmah
[
itype
][
jtype
];
f
[
i
][
0
]
+=
delx
*
fpair
;
f
[
i
][
1
]
+=
dely
*
fpair
;
f
[
i
][
2
]
+=
delz
*
fpair
;
if
(
NEWTON_PAIR
||
j
<
nlocal
)
{
f
[
j
][
0
]
-=
delx
*
fpair
;
f
[
j
][
1
]
-=
dely
*
fpair
;
f
[
j
][
2
]
-=
delz
*
fpair
;
}
if
(
EFLAG
)
{
evdwl
=
ugauss
-
offset
[
itype
][
jtype
];
evdwl
*=
factor_lj
;
}
if
(
EVFLAG
)
ev_tally_thr
(
i
,
j
,
nlocal
,
NEWTON_PAIR
,
evdwl
,
0.0
,
fpair
,
delx
,
dely
,
delz
,
tid
);
}
}
}
// reduce per thread forces into global force array.
force_reduce_thr
(
atom
->
f
,
nall
,
nthreads
,
tid
);
}
ev_reduce_thr
();
if
(
vflag_fdotr
)
virial_compute
();
}
/* ----------------------------------------------------------------------
allocate all arrays
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
allocate
()
{
allocated
=
1
;
int
n
=
atom
->
ntypes
;
setflag
=
memory
->
create_2d_int_array
(
n
+
1
,
n
+
1
,
"pair:setflag"
);
for
(
int
i
=
1
;
i
<=
n
;
i
++
)
for
(
int
j
=
i
;
j
<=
n
;
j
++
)
setflag
[
i
][
j
]
=
0
;
cutsq
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:cutsq"
);
cut
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:cut"
);
hgauss
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:hgauss"
);
sigmah
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:sigmah"
);
rmh
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:rmh"
);
pgauss
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:pgauss"
);
offset
=
memory
->
create_2d_double_array
(
n
+
1
,
n
+
1
,
"pair:offset"
);
}
/* ----------------------------------------------------------------------
global settings
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
settings
(
int
narg
,
char
**
arg
)
{
if
(
narg
!=
1
)
error
->
all
(
"Illegal pair_style command"
);
cut_global
=
force
->
numeric
(
arg
[
0
]);
// reset cutoffs that have been explicitly set
if
(
allocated
)
{
int
i
,
j
;
for
(
i
=
1
;
i
<=
atom
->
ntypes
;
i
++
)
for
(
j
=
i
+
1
;
j
<=
atom
->
ntypes
;
j
++
)
if
(
setflag
[
i
][
j
])
cut
[
i
][
j
]
=
cut_global
;
}
}
/* ----------------------------------------------------------------------
set coeffs for one or more type pairs
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
coeff
(
int
narg
,
char
**
arg
)
{
if
(
narg
<
5
||
narg
>
6
)
error
->
all
(
"Incorrect args for pair coefficients"
);
if
(
!
allocated
)
allocate
();
int
ilo
,
ihi
,
jlo
,
jhi
;
force
->
bounds
(
arg
[
0
],
atom
->
ntypes
,
ilo
,
ihi
);
force
->
bounds
(
arg
[
1
],
atom
->
ntypes
,
jlo
,
jhi
);
double
hgauss_one
=
force
->
numeric
(
arg
[
2
]);
double
rmh_one
=
force
->
numeric
(
arg
[
3
]);
double
sigmah_one
=
force
->
numeric
(
arg
[
4
]);
double
cut_one
=
cut_global
;
if
(
narg
==
6
)
cut_one
=
force
->
numeric
(
arg
[
5
]);
int
count
=
0
;
for
(
int
i
=
ilo
;
i
<=
ihi
;
i
++
)
{
for
(
int
j
=
MAX
(
jlo
,
i
);
j
<=
jhi
;
j
++
)
{
hgauss
[
i
][
j
]
=
hgauss_one
;
sigmah
[
i
][
j
]
=
sigmah_one
;
rmh
[
i
][
j
]
=
rmh_one
;
cut
[
i
][
j
]
=
cut_one
;
setflag
[
i
][
j
]
=
1
;
count
++
;
}
}
if
(
count
==
0
)
error
->
all
(
"Incorrect args for pair coefficients"
);
}
/* ----------------------------------------------------------------------
init for one type pair i,j and corresponding j,i
------------------------------------------------------------------------- */
double
PairGaussCutOMP
::
init_one
(
int
i
,
int
j
)
{
if
(
setflag
[
i
][
j
]
==
0
)
{
error
->
all
(
"for gauss pair style, parameters need to be set explicitly for all pairs."
);
}
double
PI
=
4.0
*
atan
(
1.0
);
pgauss
[
i
][
j
]
=
hgauss
[
i
][
j
]
/
sqrt
(
2.0
*
PI
)
/
sigmah
[
i
][
j
];
if
(
offset_flag
)
{
double
rexp
=
(
cut
[
i
][
j
]
-
rmh
[
i
][
j
])
/
sigmah
[
i
][
j
];
offset
[
i
][
j
]
=
pgauss
[
i
][
j
]
*
exp
(
-
0.5
*
rexp
*
rexp
);
}
else
offset
[
i
][
j
]
=
0.0
;
hgauss
[
j
][
i
]
=
hgauss
[
i
][
j
];
sigmah
[
j
][
i
]
=
sigmah
[
i
][
j
];
rmh
[
j
][
i
]
=
rmh
[
i
][
j
];
pgauss
[
j
][
i
]
=
pgauss
[
i
][
j
];
offset
[
j
][
i
]
=
offset
[
i
][
j
];
cut
[
j
][
i
]
=
cut
[
i
][
j
];
// compute I,J contribution to long-range tail correction
// count total # of atoms of type I and J via Allreduce
if
(
tail_flag
)
{
int
*
type
=
atom
->
type
;
int
nlocal
=
atom
->
nlocal
;
double
count
[
2
],
all
[
2
];
count
[
0
]
=
count
[
1
]
=
0.0
;
for
(
int
k
=
0
;
k
<
nlocal
;
k
++
)
{
if
(
type
[
k
]
==
i
)
count
[
0
]
+=
1.0
;
if
(
type
[
k
]
==
j
)
count
[
1
]
+=
1.0
;
}
MPI_Allreduce
(
count
,
all
,
2
,
MPI_DOUBLE
,
MPI_SUM
,
world
);
}
return
cut
[
i
][
j
];
}
/* ----------------------------------------------------------------------
proc 0 writes to restart file
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
write_restart
(
FILE
*
fp
)
{
write_restart_settings
(
fp
);
int
i
,
j
;
for
(
i
=
1
;
i
<=
atom
->
ntypes
;
i
++
)
for
(
j
=
i
;
j
<=
atom
->
ntypes
;
j
++
)
{
fwrite
(
&
setflag
[
i
][
j
],
sizeof
(
int
),
1
,
fp
);
if
(
setflag
[
i
][
j
])
{
fwrite
(
&
hgauss
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fwrite
(
&
rmh
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fwrite
(
&
sigmah
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fwrite
(
&
cut
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
}
}
}
/* ----------------------------------------------------------------------
proc 0 reads from restart file, bcasts
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
read_restart
(
FILE
*
fp
)
{
read_restart_settings
(
fp
);
allocate
();
int
i
,
j
;
int
me
=
comm
->
me
;
for
(
i
=
1
;
i
<=
atom
->
ntypes
;
i
++
)
for
(
j
=
i
;
j
<=
atom
->
ntypes
;
j
++
)
{
if
(
me
==
0
)
fread
(
&
setflag
[
i
][
j
],
sizeof
(
int
),
1
,
fp
);
MPI_Bcast
(
&
setflag
[
i
][
j
],
1
,
MPI_INT
,
0
,
world
);
if
(
setflag
[
i
][
j
])
{
if
(
me
==
0
)
{
fread
(
&
hgauss
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fread
(
&
rmh
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fread
(
&
sigmah
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
fread
(
&
cut
[
i
][
j
],
sizeof
(
double
),
1
,
fp
);
}
MPI_Bcast
(
&
hgauss
[
i
][
j
],
1
,
MPI_DOUBLE
,
0
,
world
);
MPI_Bcast
(
&
rmh
[
i
][
j
],
1
,
MPI_DOUBLE
,
0
,
world
);
MPI_Bcast
(
&
sigmah
[
i
][
j
],
1
,
MPI_DOUBLE
,
0
,
world
);
MPI_Bcast
(
&
cut
[
i
][
j
],
1
,
MPI_DOUBLE
,
0
,
world
);
}
}
}
/* ----------------------------------------------------------------------
proc 0 writes to restart file
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
write_restart_settings
(
FILE
*
fp
)
{
fwrite
(
&
cut_global
,
sizeof
(
double
),
1
,
fp
);
fwrite
(
&
offset_flag
,
sizeof
(
int
),
1
,
fp
);
fwrite
(
&
mix_flag
,
sizeof
(
int
),
1
,
fp
);
}
/* ----------------------------------------------------------------------
proc 0 reads from restart file, bcasts
------------------------------------------------------------------------- */
void
PairGaussCutOMP
::
read_restart_settings
(
FILE
*
fp
)
{
int
me
=
comm
->
me
;
if
(
me
==
0
)
{
fread
(
&
cut_global
,
sizeof
(
double
),
1
,
fp
);
fread
(
&
offset_flag
,
sizeof
(
int
),
1
,
fp
);
fread
(
&
mix_flag
,
sizeof
(
int
),
1
,
fp
);
}
MPI_Bcast
(
&
cut_global
,
1
,
MPI_DOUBLE
,
0
,
world
);
MPI_Bcast
(
&
offset_flag
,
1
,
MPI_INT
,
0
,
world
);
MPI_Bcast
(
&
mix_flag
,
1
,
MPI_INT
,
0
,
world
);
}
/* ---------------------------------------------------------------------- */
double
PairGaussCutOMP
::
single
(
int
i
,
int
j
,
int
itype
,
int
jtype
,
double
rsq
,
double
factor_coul
,
double
factor_lj
,
double
&
fforce
)
{
double
r
,
rexp
,
ugauss
,
phigauss
;
r
=
sqrt
(
rsq
);
rexp
=
(
r
-
rmh
[
itype
][
jtype
])
/
sigmah
[
itype
][
jtype
];
ugauss
=
pgauss
[
itype
][
jtype
]
*
exp
(
-
0.5
*
rexp
*
rexp
);
fforce
=
factor_lj
*
rexp
/
r
*
ugauss
/
sigmah
[
itype
][
jtype
];
phigauss
=
ugauss
-
offset
[
itype
][
jtype
];
return
factor_lj
*
phigauss
;
}
/* ---------------------------------------------------------------------- */
double
PairGaussCutOMP
::
memory_usage
()
{
const
int
n
=
atom
->
ntypes
;
double
bytes
=
Pair
::
memory_usage
();
bytes
+=
7
*
((
n
+
1
)
*
(
n
+
1
)
*
sizeof
(
double
)
+
(
n
+
1
)
*
sizeof
(
double
*
));
bytes
+=
1
*
((
n
+
1
)
*
(
n
+
1
)
*
sizeof
(
int
)
+
(
n
+
1
)
*
sizeof
(
int
*
));
return
bytes
;
}
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