Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F91502420
lal_soft.cpp
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Mon, Nov 11, 17:34
Size
5 KB
Mime Type
text/x-c++
Expires
Wed, Nov 13, 17:34 (2 d)
Engine
blob
Format
Raw Data
Handle
22273591
Attached To
rLAMMPS lammps
lal_soft.cpp
View Options
/***************************************************************************
soft.cpp
-------------------
Trung Dac Nguyen (ORNL)
Class for acceleration of the soft pair style.
__________________________________________________________________________
This file is part of the LAMMPS Accelerator Library (LAMMPS_AL)
__________________________________________________________________________
begin :
email : nguyentd@ornl.gov
***************************************************************************/
#ifdef USE_OPENCL
#include "soft_cl.h"
#elif defined(USE_CUDART)
const
char
*
soft
=
0
;
#else
#include "soft_cubin.h"
#endif
#include "lal_soft.h"
#include <cassert>
using
namespace
LAMMPS_AL
;
#define SoftT Soft<numtyp, acctyp>
extern
Device
<
PRECISION
,
ACC_PRECISION
>
device
;
template
<
class
numtyp
,
class
acctyp
>
SoftT
::
Soft
()
:
BaseAtomic
<
numtyp
,
acctyp
>
(),
_allocated
(
false
)
{
}
template
<
class
numtyp
,
class
acctyp
>
SoftT
::~
Soft
()
{
clear
();
}
template
<
class
numtyp
,
class
acctyp
>
int
SoftT
::
bytes_per_atom
(
const
int
max_nbors
)
const
{
return
this
->
bytes_per_atom_atomic
(
max_nbors
);
}
template
<
class
numtyp
,
class
acctyp
>
int
SoftT
::
init
(
const
int
ntypes
,
double
**
host_cutsq
,
double
**
host_prefactor
,
double
**
host_cut
,
double
*
host_special_lj
,
const
int
nlocal
,
const
int
nall
,
const
int
max_nbors
,
const
int
maxspecial
,
const
double
cell_size
,
const
double
gpu_split
,
FILE
*
_screen
)
{
int
success
;
success
=
this
->
init_atomic
(
nlocal
,
nall
,
max_nbors
,
maxspecial
,
cell_size
,
gpu_split
,
_screen
,
soft
,
"k_soft"
);
if
(
success
!=
0
)
return
success
;
// If atom type constants fit in shared memory use fast kernel
int
lj_types
=
ntypes
;
shared_types
=
false
;
int
max_shared_types
=
this
->
device
->
max_shared_types
();
if
(
lj_types
<=
max_shared_types
&&
this
->
_block_size
>=
max_shared_types
)
{
lj_types
=
max_shared_types
;
shared_types
=
true
;
}
_lj_types
=
lj_types
;
// Allocate a host write buffer for data initialization
UCL_H_Vec
<
numtyp
>
host_write
(
lj_types
*
lj_types
*
32
,
*
(
this
->
ucl_device
),
UCL_WRITE_ONLY
);
for
(
int
i
=
0
;
i
<
lj_types
*
lj_types
;
i
++
)
host_write
[
i
]
=
0.0
;
coeff
.
alloc
(
lj_types
*
lj_types
,
*
(
this
->
ucl_device
),
UCL_READ_ONLY
);
this
->
atom
->
type_pack4
(
ntypes
,
lj_types
,
coeff
,
host_write
,
host_prefactor
,
host_cut
,
host_cutsq
);
UCL_H_Vec
<
double
>
dview
;
sp_lj
.
alloc
(
4
,
*
(
this
->
ucl_device
),
UCL_READ_ONLY
);
dview
.
view
(
host_special_lj
,
4
,
*
(
this
->
ucl_device
));
ucl_copy
(
sp_lj
,
dview
,
false
);
_allocated
=
true
;
this
->
_max_bytes
=
coeff
.
row_bytes
()
+
sp_lj
.
row_bytes
();
return
0
;
}
template
<
class
numtyp
,
class
acctyp
>
void
SoftT
::
reinit
(
const
int
ntypes
,
double
**
host_cutsq
,
double
**
host_prefactor
,
double
**
host_cut
)
{
// Allocate a host write buffer for data initialization
UCL_H_Vec
<
numtyp
>
host_write
(
_lj_types
*
_lj_types
*
32
,
*
(
this
->
ucl_device
),
UCL_WRITE_ONLY
);
for
(
int
i
=
0
;
i
<
_lj_types
*
_lj_types
;
i
++
)
host_write
[
i
]
=
0.0
;
this
->
atom
->
type_pack4
(
ntypes
,
_lj_types
,
coeff
,
host_write
,
host_prefactor
,
host_cut
,
host_cutsq
);
}
template
<
class
numtyp
,
class
acctyp
>
void
SoftT
::
clear
()
{
if
(
!
_allocated
)
return
;
_allocated
=
false
;
coeff
.
clear
();
sp_lj
.
clear
();
this
->
clear_atomic
();
}
template
<
class
numtyp
,
class
acctyp
>
double
SoftT
::
host_memory_usage
()
const
{
return
this
->
host_memory_usage_atomic
()
+
sizeof
(
Soft
<
numtyp
,
acctyp
>
);
}
// ---------------------------------------------------------------------------
// Calculate energies, forces, and torques
// ---------------------------------------------------------------------------
template
<
class
numtyp
,
class
acctyp
>
void
SoftT
::
loop
(
const
bool
_eflag
,
const
bool
_vflag
)
{
// Compute the block size and grid size to keep all cores busy
const
int
BX
=
this
->
block_size
();
int
eflag
,
vflag
;
if
(
_eflag
)
eflag
=
1
;
else
eflag
=
0
;
if
(
_vflag
)
vflag
=
1
;
else
vflag
=
0
;
int
GX
=
static_cast
<
int
>
(
ceil
(
static_cast
<
double
>
(
this
->
ans
->
inum
())
/
(
BX
/
this
->
_threads_per_atom
)));
int
ainum
=
this
->
ans
->
inum
();
int
nbor_pitch
=
this
->
nbor
->
nbor_pitch
();
this
->
time_pair
.
start
();
if
(
shared_types
)
{
this
->
k_pair_fast
.
set_size
(
GX
,
BX
);
this
->
k_pair_fast
.
run
(
&
this
->
atom
->
x
,
&
coeff
,
&
sp_lj
,
&
this
->
nbor
->
dev_nbor
,
&
this
->
_nbor_data
->
begin
(),
&
this
->
ans
->
force
,
&
this
->
ans
->
engv
,
&
eflag
,
&
vflag
,
&
ainum
,
&
nbor_pitch
,
&
this
->
_threads_per_atom
);
}
else
{
this
->
k_pair
.
set_size
(
GX
,
BX
);
this
->
k_pair
.
run
(
&
this
->
atom
->
x
,
&
coeff
,
&
_lj_types
,
&
sp_lj
,
&
this
->
nbor
->
dev_nbor
,
&
this
->
_nbor_data
->
begin
(),
&
this
->
ans
->
force
,
&
this
->
ans
->
engv
,
&
eflag
,
&
vflag
,
&
ainum
,
&
nbor_pitch
,
&
this
->
_threads_per_atom
);
}
this
->
time_pair
.
stop
();
}
template
class
Soft
<
PRECISION
,
ACC_PRECISION
>
;
Event Timeline
Log In to Comment