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dihedral_charmm_kokkos.h
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rLAMMPS lammps
dihedral_charmm_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 DIHEDRAL_CLASS
DihedralStyle
(
charmm
/
kk
,
DihedralCharmmKokkos
<
LMPDeviceType
>
)
DihedralStyle
(
charmm
/
kk
/
device
,
DihedralCharmmKokkos
<
LMPDeviceType
>
)
DihedralStyle
(
charmm
/
kk
/
host
,
DihedralCharmmKokkos
<
LMPHostType
>
)
#else
#ifndef LMP_DIHEDRAL_CHARMM_KOKKOS_H
#define LMP_DIHEDRAL_CHARMM_KOKKOS_H
#include "dihedral_charmm.h"
#include "kokkos_type.h"
namespace
LAMMPS_NS
{
struct
s_EVM_FLOAT
{
E_FLOAT
evdwl
;
E_FLOAT
ecoul
;
E_FLOAT
emol
;
F_FLOAT
v
[
6
];
F_FLOAT
vp
[
6
];
KOKKOS_INLINE_FUNCTION
s_EVM_FLOAT
()
{
evdwl
=
0
;
ecoul
=
0
;
emol
=
0
;
v
[
0
]
=
0
;
v
[
1
]
=
0
;
v
[
2
]
=
0
;
v
[
3
]
=
0
;
v
[
4
]
=
0
;
v
[
5
]
=
0
;
vp
[
0
]
=
0
;
vp
[
1
]
=
0
;
vp
[
2
]
=
0
;
vp
[
3
]
=
0
;
vp
[
4
]
=
0
;
vp
[
5
]
=
0
;
}
KOKKOS_INLINE_FUNCTION
void
operator
+=
(
const
s_EVM_FLOAT
&
rhs
)
{
evdwl
+=
rhs
.
evdwl
;
ecoul
+=
rhs
.
ecoul
;
emol
+=
rhs
.
emol
;
v
[
0
]
+=
rhs
.
v
[
0
];
v
[
1
]
+=
rhs
.
v
[
1
];
v
[
2
]
+=
rhs
.
v
[
2
];
v
[
3
]
+=
rhs
.
v
[
3
];
v
[
4
]
+=
rhs
.
v
[
4
];
v
[
5
]
+=
rhs
.
v
[
5
];
vp
[
0
]
+=
rhs
.
vp
[
0
];
vp
[
1
]
+=
rhs
.
vp
[
1
];
vp
[
2
]
+=
rhs
.
vp
[
2
];
vp
[
3
]
+=
rhs
.
vp
[
3
];
vp
[
4
]
+=
rhs
.
vp
[
4
];
vp
[
5
]
+=
rhs
.
vp
[
5
];
}
KOKKOS_INLINE_FUNCTION
void
operator
+=
(
const
volatile
s_EVM_FLOAT
&
rhs
)
volatile
{
evdwl
+=
rhs
.
evdwl
;
ecoul
+=
rhs
.
ecoul
;
emol
+=
rhs
.
emol
;
v
[
0
]
+=
rhs
.
v
[
0
];
v
[
1
]
+=
rhs
.
v
[
1
];
v
[
2
]
+=
rhs
.
v
[
2
];
v
[
3
]
+=
rhs
.
v
[
3
];
v
[
4
]
+=
rhs
.
v
[
4
];
v
[
5
]
+=
rhs
.
v
[
5
];
vp
[
0
]
+=
rhs
.
vp
[
0
];
vp
[
1
]
+=
rhs
.
vp
[
1
];
vp
[
2
]
+=
rhs
.
vp
[
2
];
vp
[
3
]
+=
rhs
.
vp
[
3
];
vp
[
4
]
+=
rhs
.
vp
[
4
];
vp
[
5
]
+=
rhs
.
vp
[
5
];
}
};
typedef
struct
s_EVM_FLOAT
EVM_FLOAT
;
template
<
int
NEWTON_BOND
,
int
EVFLAG
>
struct
TagDihedralCharmmCompute
{};
template
<
class
DeviceType
>
class
DihedralCharmmKokkos
:
public
DihedralCharmm
{
public:
typedef
DeviceType
device_type
;
typedef
EVM_FLOAT
value_type
;
typedef
ArrayTypes
<
DeviceType
>
AT
;
DihedralCharmmKokkos
(
class
LAMMPS
*
);
virtual
~
DihedralCharmmKokkos
();
virtual
void
compute
(
int
,
int
);
virtual
void
coeff
(
int
,
char
**
);
virtual
void
init_style
();
template
<
int
NEWTON_BOND
,
int
EVFLAG
>
KOKKOS_INLINE_FUNCTION
void
operator
()(
TagDihedralCharmmCompute
<
NEWTON_BOND
,
EVFLAG
>
,
const
int
&
,
EVM_FLOAT
&
)
const
;
template
<
int
NEWTON_BOND
,
int
EVFLAG
>
KOKKOS_INLINE_FUNCTION
void
operator
()(
TagDihedralCharmmCompute
<
NEWTON_BOND
,
EVFLAG
>
,
const
int
&
)
const
;
//template<int NEWTON_BOND>
KOKKOS_INLINE_FUNCTION
void
ev_tally
(
EVM_FLOAT
&
evm
,
const
int
i1
,
const
int
i2
,
const
int
i3
,
const
int
i4
,
F_FLOAT
&
edihedral
,
F_FLOAT
*
f1
,
F_FLOAT
*
f3
,
F_FLOAT
*
f4
,
const
F_FLOAT
&
vb1x
,
const
F_FLOAT
&
vb1y
,
const
F_FLOAT
&
vb1z
,
const
F_FLOAT
&
vb2x
,
const
F_FLOAT
&
vb2y
,
const
F_FLOAT
&
vb2z
,
const
F_FLOAT
&
vb3x
,
const
F_FLOAT
&
vb3y
,
const
F_FLOAT
&
vb3z
)
const
;
KOKKOS_INLINE_FUNCTION
void
ev_tally
(
EVM_FLOAT
&
evm
,
const
int
i
,
const
int
j
,
const
F_FLOAT
&
evdwl
,
const
F_FLOAT
&
ecoul
,
const
F_FLOAT
&
fpair
,
const
F_FLOAT
&
delx
,
const
F_FLOAT
&
dely
,
const
F_FLOAT
&
delz
)
const
;
protected:
class
NeighborKokkos
*
neighborKK
;
typename
AT
::
t_x_array_randomread
x
;
typename
AT
::
t_int_1d_randomread
atomtype
;
typename
AT
::
t_ffloat_1d_randomread
q
;
typename
AT
::
t_f_array
f
;
typename
AT
::
t_int_2d
dihedrallist
;
Kokkos
::
DualView
<
E_FLOAT
*
,
Kokkos
::
LayoutRight
,
DeviceType
>
k_eatom
;
Kokkos
::
DualView
<
F_FLOAT
*
[
6
],
Kokkos
::
LayoutRight
,
DeviceType
>
k_vatom
;
Kokkos
::
View
<
E_FLOAT
*
,
Kokkos
::
LayoutRight
,
DeviceType
,
Kokkos
::
MemoryTraits
<
Kokkos
::
Atomic
>
>
d_eatom
;
Kokkos
::
View
<
F_FLOAT
*
[
6
],
Kokkos
::
LayoutRight
,
DeviceType
,
Kokkos
::
MemoryTraits
<
Kokkos
::
Atomic
>
>
d_vatom
;
Kokkos
::
DualView
<
E_FLOAT
*
,
Kokkos
::
LayoutRight
,
DeviceType
>
k_eatom_pair
;
Kokkos
::
DualView
<
F_FLOAT
*
[
6
],
Kokkos
::
LayoutRight
,
DeviceType
>
k_vatom_pair
;
Kokkos
::
View
<
E_FLOAT
*
,
Kokkos
::
LayoutRight
,
DeviceType
,
Kokkos
::
MemoryTraits
<
Kokkos
::
Atomic
>
>
d_eatom_pair
;
Kokkos
::
View
<
F_FLOAT
*
[
6
],
Kokkos
::
LayoutRight
,
DeviceType
,
Kokkos
::
MemoryTraits
<
Kokkos
::
Atomic
>
>
d_vatom_pair
;
int
nlocal
,
newton_bond
;
int
eflag
,
vflag
;
double
qqrd2e
;
Kokkos
::
DualView
<
int
,
DeviceType
>
k_warning_flag
;
typename
Kokkos
::
DualView
<
int
,
DeviceType
>::
t_dev
d_warning_flag
;
typename
Kokkos
::
DualView
<
int
,
DeviceType
>::
t_host
h_warning_flag
;
typename
AT
::
t_ffloat_2d
d_lj14_1
;
typename
AT
::
t_ffloat_2d
d_lj14_2
;
typename
AT
::
t_ffloat_2d
d_lj14_3
;
typename
AT
::
t_ffloat_2d
d_lj14_4
;
typename
AT
::
t_ffloat_1d
d_k
;
typename
AT
::
t_ffloat_1d
d_multiplicity
;
typename
AT
::
t_ffloat_1d
d_shift
;
typename
AT
::
t_ffloat_1d
d_sin_shift
;
typename
AT
::
t_ffloat_1d
d_cos_shift
;
typename
AT
::
t_ffloat_1d
d_weight
;
virtual
void
allocate
();
};
}
#endif
#endif
/* ERROR/WARNING messages:
W: Dihedral problem
Conformation of the 4 listed dihedral atoms is extreme; you may want
to check your simulation geometry.
*/
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