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Michael Black
OpenXG UE
Commits
f178a5f0
Commit
f178a5f0
authored
Oct 05, 2021
by
frtabu
Browse files
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opencl implementation of ldpc decoder (platform query)
parent
60a91939
Changes
2
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2 changed files
with
321 additions
and
22 deletions
+321
-22
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_CL.c
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_CL.c
+60
-22
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_kernels_CL.cl
...r1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_kernels_CL.cl
+261
-0
No files found.
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_CL.c
View file @
f178a5f0
...
...
@@ -39,8 +39,8 @@
#define MAX_ITERATION 2
#define MC 1
#define MAX_OCLDEV 10
#define MAX_OCLDEV
10
#define MAX_OCLRUNTIME 5
typedef
struct
{
char
x
;
char
y
;
...
...
@@ -51,14 +51,20 @@ typedef struct{
cl_uint
max_CU
;
cl_uint
max_WID
;
size_t
*
max_WIS
;
}
ocldev_t
;
typedef
struct
{
cl_uint
num_devices
;
cl_device_id
devices
[
MAX_OCLDEV
];
ocldev_t
ocldev
[
MAX_OCLDEV
];
cl_context
context
;
cl_program
program
;
cl_kernel
kernel
;
cl_command_queue
queue
;
}
ocl
dev
_t
;
cl_command_queue
queue
[
MAX_OCLDEV
]
;
}
ocl
runtime
_t
;
typedef
struct
{
ocl
dev_t
ocldev
[
MAX_OCLDEV
];
ocl
runtime_t
runtime
[
MAX_OCLRUNTIME
];
}
ocl_t
;
...
...
@@ -86,7 +92,8 @@ void init_LLR_DMA(t_nrLDPC_dec_params* p_decParams, int8_t* p_llr, int8_t* p_out
// cudaDeviceSynchronize();
}
cl_error_callback
(
const
char
*
errinfo
,
const
void
*
private_info
,
size_t
cb
,
void
*
user_data
)
{
void
cl_error_callback
(
const
char
*
errinfo
,
const
void
*
private_info
,
size_t
cb
,
void
*
user_data
)
{
oclruntime_t
*
runtime
=
(
oclruntime_t
*
)
user_data
;
LOG_E
(
HW
,
"OpenCL accelerator error %s
\n
"
,
errinfo
);
}
...
...
@@ -103,11 +110,25 @@ char *clutil_getstrdev(int intdev) {
return
retstring
;
}
size_t
load_source
(
char
**
source_str
)
{
int
MAX_SOURCE_SIZE
=
(
500
*
132
);
FILE
*
fp
;
size_t
source_size
;
fp
=
fopen
(
"nrLDPC_decoder_kernels_CL.cl"
,
"r"
);
AssertFatal
(
fp
,
"failed to open cl source: %s
\n
"
,
strerror
(
errno
));
*
source_str
=
(
char
*
)
malloc
(
MAX_SOURCE_SIZE
);
source_size
=
fread
(
*
source_str
,
1
,
MAX_SOURCE_SIZE
,
fp
);
fclose
(
fp
);
return
source_size
;
}
/* from here: entry points in decoder shared lib */
int
ldpc_autoinit
(
void
)
{
// called by the library loader
cl_platform_id
platforms
[
10
];
cl_uint
num_platforms_found
;
int
context_ok
=
0
;
cl_uint
rt
=
clGetPlatformIDs
(
sizeof
(
platforms
)
/
sizeof
(
cl_platform_id
),
platforms
,
&
num_platforms_found
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetPlatformIDs error %d
\n
"
,
(
int
)
rt
);
AssertFatal
(
num_platforms_found
>
0
,
"clGetPlatformIDs: no cl compatible platform found
\n
"
);
...
...
@@ -119,33 +140,50 @@ int ldpc_autoinit(void) { // called by the library loader
rt
=
clGetPlatformInfo
(
platforms
[
i
],
CL_PLATFORM_VERSION
,
sizeof
(
stringval
),
stringval
,
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetPlatformInfo VERSION error %d
\n
"
,
(
int
)
rt
);
LOG_I
(
HW
,
"Platform %i, OpenCL version %s
\n
"
,
i
,
stringval
);
cl_device_id
devices
[
20
];
cl_uint
num_devices_found
;
rt
=
clGetDeviceIDs
(
platforms
[
i
],
CL_DEVICE_TYPE_ALL
,
sizeof
(
devices
)
/
sizeof
(
cl_device_id
),
devices
,
&
num_devices_found
);
rt
=
clGetDeviceIDs
(
platforms
[
i
],
CL_DEVICE_TYPE_ALL
,
sizeof
(
ocl
.
runtime
[
i
].
devices
)
/
sizeof
(
cl_device_id
),
ocl
.
runtime
[
i
].
devices
,
&
(
ocl
.
runtime
[
i
].
num_devices
));
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceIDs error %d
\n
"
,
(
int
)
rt
);
for
(
int
j
=
0
;
j
<
num_devices_found
;
j
++
)
{
int
devok
=
0
;
for
(
int
j
=
0
;
j
<
ocl
.
runtime
[
i
].
num_devices
;
j
++
)
{
cl_bool
abool
;
rt
=
clGetDeviceInfo
(
devices
[
j
],
CL_DEVICE_AVAILABLE
,
sizeof
(
abool
),
&
abool
,
NULL
);
rt
=
clGetDeviceInfo
(
ocl
.
runtime
[
i
].
devices
[
j
],
CL_DEVICE_AVAILABLE
,
sizeof
(
abool
),
&
abool
,
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceInfo DEVICE_AVAILABLE error %d
\n
"
,
(
int
)
rt
);
LOG_I
(
HW
,
"Device %i is %s available
\n
"
,
j
,
(
abool
==
CL_TRUE
?
""
:
"not"
));
cl_device_type
devtype
;
rt
=
clGetDeviceInfo
(
devices
[
j
],
CL_DEVICE_TYPE
,
sizeof
(
cl_device_type
),
&
devtype
,
NULL
);
rt
=
clGetDeviceInfo
(
ocl
.
runtime
[
i
].
devices
[
j
],
CL_DEVICE_TYPE
,
sizeof
(
cl_device_type
),
&
devtype
,
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceInfo DEVICE_TYPE error %d
\n
"
,
(
int
)
rt
);
LOG_I
(
HW
,
"Device %i, type %d = %s
\n
"
,
j
,(
int
)
devtype
,
clutil_getstrdev
(
devtype
));
rt
=
clGetDeviceInfo
(
devices
[
j
],
CL_DEVICE_MAX_COMPUTE_UNITS
,
sizeof
(
ocl
.
ocldev
[
j
].
max_CU
),
&
(
ocl
.
ocldev
[
j
].
max_CU
),
NULL
);
rt
=
clGetDeviceInfo
(
ocl
.
runtime
[
i
].
devices
[
j
],
CL_DEVICE_MAX_COMPUTE_UNITS
,
sizeof
(
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_CU
),
&
(
ocl
.
runtime
[
i
]
.
ocldev
[
j
].
max_CU
),
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceInfo MAX_COMPUTE_UNITS error %d
\n
"
,
(
int
)
rt
);
LOG_I
(
HW
,
"Device %i, number of Compute Units: %d
\n
"
,
j
,
ocl
.
ocldev
[
j
].
max_CU
);
rt
=
clGetDeviceInfo
(
devices
[
j
],
CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS
,
sizeof
(
ocl
.
ocldev
[
j
].
max_WID
),
&
(
ocl
.
ocldev
[
j
].
max_WID
),
NULL
);
LOG_I
(
HW
,
"Device %i, number of Compute Units: %d
\n
"
,
j
,
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_CU
);
rt
=
clGetDeviceInfo
(
ocl
.
runtime
[
i
].
devices
[
j
],
CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS
,
sizeof
(
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WID
),
&
(
ocl
.
runtime
[
i
]
.
ocldev
[
j
].
max_WID
),
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceInfo MAX_WORK_ITEM_DIMENSIONS error %d
\n
"
,
(
int
)
rt
);
LOG_I
(
HW
,
"Device %i, max Work Items dimension: %d
\n
"
,
j
,
ocl
.
ocldev
[
j
].
max_WID
);
ocl
.
ocldev
[
j
].
max_WIS
=
(
size_t
*
)
malloc
(
ocl
.
ocldev
[
j
].
max_WID
*
sizeof
(
size_t
));
rt
=
clGetDeviceInfo
(
devices
[
j
],
CL_DEVICE_MAX_WORK_ITEM_SIZES
,
sizeof
(
ocl
.
ocldev
[
j
].
max_WID
)
*
sizeof
(
size_t
),
ocl
.
ocldev
[
j
].
max_WIS
,
NULL
);
LOG_I
(
HW
,
"Device %i, max Work Items dimension: %d
\n
"
,
j
,
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WID
);
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WIS
=
(
size_t
*
)
malloc
(
ocl
.
runtime
[
i
]
.
ocldev
[
j
].
max_WID
*
sizeof
(
size_t
));
rt
=
clGetDeviceInfo
(
ocl
.
runtime
[
i
].
devices
[
j
],
CL_DEVICE_MAX_WORK_ITEM_SIZES
,
sizeof
(
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WID
)
*
sizeof
(
size_t
),
ocl
.
runtime
[
i
]
.
ocldev
[
j
].
max_WIS
,
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"clGetDeviceInfo MAX_WORK_ITEM_SIZES error %d
\n
"
,
(
int
)
rt
);
for
(
int
k
=
0
;
k
<
ocl
.
ocldev
[
j
].
max_WID
;
k
++
)
LOG_I
(
HW
,
"Device %i, max Work Items size for dimension: %d %u
\n
"
,
j
,
k
,(
uint32_t
)
ocl
.
ocldev
[
j
].
max_WIS
[
k
]);
for
(
int
k
=
0
;
k
<
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WID
;
k
++
)
LOG_I
(
HW
,
"Device %i, max Work Items size for dimension: %d %u
\n
"
,
j
,
k
,(
uint32_t
)
ocl
.
runtime
[
i
].
ocldev
[
j
].
max_WIS
[
k
]);
devok
++
;
}
if
(
devok
>
0
)
{
ocl
.
runtime
[
i
].
context
=
clCreateContext
(
NULL
,
ocl
.
runtime
[
i
].
num_devices
,
ocl
.
runtime
[
i
].
devices
,
cl_error_callback
,
&
(
ocl
.
runtime
[
i
]),
(
cl_int
*
)
&
rt
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"Error %d creating context for platform %i
\n
"
,
(
int
)
rt
,
i
);
for
(
int
dev
=
0
;
dev
<
ocl
.
runtime
[
i
].
num_devices
;
dev
++
)
{
ocl
.
runtime
[
i
].
queue
[
dev
]
=
clCreateCommandQueueWithProperties
(
ocl
.
runtime
[
i
].
context
,
ocl
.
runtime
[
i
].
devices
[
dev
]
,
0
,
(
cl_int
*
)
&
rt
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"Error %d creating command queue for platform %i device %i
\n
"
,
(
int
)
rt
,
i
,
dev
);
}
char
*
source_str
;
size_t
source_size
=
load_source
(
&
source_str
);
cl_program
program
=
clCreateProgramWithSource
(
ocl
.
runtime
[
i
].
context
,
1
,
(
const
char
**
)
&
source_str
,
(
const
size_t
*
)
&
source_size
,
(
cl_int
*
)
&
rt
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"Error %d creating program for platform %i
\n
"
,
(
int
)
rt
,
i
);
rt
=
clBuildProgram
(
program
,
ocl
.
runtime
[
i
].
num_devices
,
ocl
.
runtime
[
i
].
devices
,
NULL
,
NULL
,
NULL
);
AssertFatal
(
rt
==
CL_SUCCESS
,
"Error %d buildding program for platform %i
\n
"
,
rt
,
i
);
context_ok
++
;
}
devok
=
0
;
}
AssertFatal
(
context_ok
>
0
,
"No openCL device available to accelerate ldpc
\n
"
);
return
0
;
}
...
...
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder_kernels_CL.cl
0 → 100644
View file @
f178a5f0
define
MAX_ITERATION
2
#
define
MC
1
typedef
struct{
char
x
;
char
y
;
short
value
;
}
h_element
;
char
dev_const_llr[68*384]
;
char
dev_dt
[46*68*384]
;
char
dev_llr[68*384]
;
unsigned
char
dev_tmp[68*384]
;
h_element
h_compact1
[46*19]
=
{}
;
h_element
h_compact2
[68*30]
=
{}
;
h_element
dev_h_compact1[46*19]
; // used in kernel 1
h_element
dev_h_compact2[68*30]
; // used in kernel 2
//
__device__
__constant__
h_element
dev_h_compact1[46*19]
; // used in kernel 1
//
__device__
__constant__
h_element
dev_h_compact2[68*30]
; // used in kernel 2
//
row
and
col
element
count
const
char
h_ele_row_bg1_count[46]
=
{
19
,
19
,
19
,
19
,
3
,
8
,
9
,
7
,
10
,
9
,
7
,
8
,
7
,
6
,
7
,
7
,
6
,
6
,
6
,
6
,
6
,
6
,
5
,
5
,
6
,
5
,
5
,
4
,
5
,
5
,
5
,
5
,
5
,
5
,
5
,
5
,
5
,
4
,
5
,
5
,
4
,
5
,
4
,
5
,
5
,
4}
;
const
char
h_ele_col_bg1_count[68]
=
{
30
,
28
,
7
,
11
,
9
,
4
,
8
,
12
,
8
,
7
,
12
,
10
,
12
,
11
,
10
,
7
,
10
,
10
,
13
,
7
,
8
,
11
,
12
,
5
,
6
,
6
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1}
;
const
char
h_ele_row_bg2_count[42]
=
{
8
,
10
,
8
,
10
,
4
,
6
,
6
,
6
,
4
,
5
,
5
,
5
,
4
,
5
,
5
,
4
,
5
,
5
,
4
,
4
,
4
,
4
,
3
,
4
,
4
,
3
,
5
,
3
,
4
,
3
,
5
,
3
,
4
,
4
,
4
,
4
,
4
,
3
,
4
,
4
,
4
,
4}
;
const
char
h_ele_col_bg2_count[52]
=
{
22
,
23
,
10
,
5
,
5
,
14
,
7
,
13
,
6
,
8
,
9
,
16
,
9
,
12
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1
,
1}
;
//
Kernel
1
__kernel
void
ldpc_cnp_kernel_1st_iter
(
/*char
*
dev_llr,*/
int
BG,
int
row,
int
col,
int
Zc
)
{
//
if
(
blockIdx.x
==
0
&&
threadIdx.x
==
1
)
printf
(
"cnp %d\n"
,
threadIdx.x
)
;
int
iMCW
=
blockIdx.y
; // codeword id
int
iBlkRow
=
blockIdx.x
; // block row in h_base
int
iBlkCol
; // block col in h_base
int
iSubRow
=
threadIdx.x
; // row index in sub_block of h_base
int
iCol
; // overall col index in h_base
int
offsetR
;
int
shift_t
;
//
For
2-min
algorithm.
int
Q_sign
=
0
;
int
sq
;
int
Q,
Q_abs
;
int
R_temp
;
int
sign
=
1
;
int
rmin1
=
INT32_MAX
;
int
rmin2
=
INT32_MAX
;
char
idx_min
=
0
;
h_element
h_element_t
;
int
s
=
(
BG==1
)
?
h_ele_row_bg1_count[iBlkRow]:h_ele_row_bg2_count[iBlkRow]
;
offsetR
=
(
iMCW
*
row*col*Zc
)
+
iBlkRow
*
Zc
+
iSubRow
; // row*col*Zc = size of dev_dt
//
if
(
blockIdx.x
==
0
&&
threadIdx.x
==
1
)
printf
(
"s: %d, offset %d\n"
,
s,
offsetR
)
;
//
The
1st
recursion
for
(
int
i
=
0
; i < s; i++) // loop through all the ZxZ sub-blocks in a row
{
h_element_t
=
dev_h_compact1[i*row+iBlkRow]
; // compact_col == row
iBlkCol
=
h_element_t.y
;
shift_t
=
h_element_t.value
;
shift_t
=
(
iSubRow
+
shift_t
)
%
Zc
;
iCol
=
(
iMCW
*
col*Zc
)
+
iBlkCol
*
Zc
+
shift_t
; // col*Zc = size of llr
Q
=
dev_llr[iCol]
;
Q_abs
=
(
Q>0
)
?
Q
:
-Q
;
sq
=
Q
<
0
;
//
if
(
blockIdx.x
==
0
&&
threadIdx.x
==
1
)
printf
(
"i %d, icol %d, Q: %d\n"
,
i,
iCol,
Q
)
;
//
quick
version
sign
=
sign
*
(
1
-
sq
*
2
)
;
Q_sign
|= sq << i;
if (Q_abs < rmin1){
rmin2 = rmin1;
rmin1 = Q_abs;
idx_min = i;
} else if (Q_abs < rmin2){
rmin2 = Q_abs;
}
}
// if(blockIdx.x == 0 && threadIdx.x == 1)printf("min1 %d, min2 %d, min1_idx %d\n", rmin1, rmin2, idx_min);
// The 2nd recursion
for(int i = 0; i < s; i++){
// v0: Best performance so far. 0.75f is the value of alpha.
sq = 1 - 2 * ((Q_sign >> i) & 0x01);
R_temp = 0.75f * sign * sq * (i != idx_min ? rmin1 : rmin2);
// write results to global memory
h_element_t = dev_h_compact1[i*row+iBlkRow];
int addr_temp = offsetR + h_element_t.y * row * Zc;
dev_dt[addr_temp] = R_temp;
// if(blockIdx.x == 0 && threadIdx.x == 1)printf("R_temp %d, temp_addr %d\n", R_temp, addr_temp);
}
}
// Kernel_1
__kernel void ldpc_cnp_kernel(/*char * dev_llr, char * dev_dt,*/ int BG, int row, int col, int Zc)
{
// if(blockIdx.x == 0 && threadIdx.x == 1) printf("cnp\n");
int iMCW = blockIdx.y;
int iBlkRow = blockIdx.x; // block row in h_base
int iBlkCol; // block col in h_base
int iSubRow = threadIdx.x; // row index in sub_block of h_base
int iCol; // overall col index in h_base
int offsetR;
int shift_t;
// For 2-min algorithm.
int Q_sign = 0;
int sq;
int Q, Q_abs;
int R_temp;
int sign = 1;
int rmin1 = INT32_MAX;
int rmin2 = INT32_MAX;
char idx_min = 0;
h_element h_element_t;
int s = (BG==1)? h_ele_row_bg1_count[iBlkRow]: h_ele_row_bg2_count[iBlkRow];
offsetR = (iMCW *row*col*Zc) + iBlkRow * Zc + iSubRow; // row * col * Zc = size of dev_dt
// if(blockIdx.x == 0 && threadIdx.x == 1) printf("s: %d, offset %d\n", s, offsetR);
// The 1st recursion
for(int i = 0; i < s; i++) // loop through all the ZxZ sub-blocks in a row
{
h_element_t = dev_h_compact1[i*row+iBlkRow];
iBlkCol = h_element_t.y;
shift_t = h_element_t.value;
shift_t = (iSubRow + shift_t) % Zc;
iCol = iBlkCol * Zc + shift_t;
R_temp = dev_dt[offsetR + iBlkCol * row * Zc];
Q = dev_llr[iMCW * (col*Zc) + iCol] - R_temp;
Q_abs = (Q>0)? Q : -Q;
// if(blockIdx.x == 0 && threadIdx.x == 1) printf("i %d, icol %d, Q: %d\n", i, iCol, Q);
sq = Q < 0;
sign = sign * (1 - sq * 2);
Q_sign |
=
sq
<<
i
;
if
(
Q_abs
<
rmin1
)
{
rmin2
=
rmin1
;
rmin1
=
Q_abs
;
idx_min
=
i
;
}
else
if
(
Q_abs
<
rmin2
)
{
rmin2
=
Q_abs
;
}
}
//
if
(
blockIdx.x
==
0
&&
threadIdx.x
==
1
)
printf
(
"min1 %d, min2 %d, min1_idx %d\n"
,
rmin1,
rmin2,
idx_min
)
;
//
The
2nd
recursion
for
(
int
i
=
0
; i < s; i ++){
sq
=
1
-
2
*
((
Q_sign
>>
i
)
&
0x01
)
;
R_temp
=
0.75f
*
sign
*
sq
*
(
i
!=
idx_min
?
rmin1
:
rmin2
)
;
//
write
results
to
global
memory
h_element_t
=
dev_h_compact1[i*row+iBlkRow]
;
int
addr_temp
=
h_element_t.y
*
row
*
Zc
+
offsetR
;
dev_dt[addr_temp]
=
R_temp
;
//
if
(
blockIdx.x
==
0
&&
threadIdx.x
==
1
)
printf
(
"R_temp %d, temp_addr %d\n"
,
R_temp,
addr_temp
)
;
}
}
//
Kernel
2:
VNP
processing
__kernel
void
ldpc_vnp_kernel_normal
(
/*char
*
dev_llr,
char
*
dev_dt,
char
*
dev_const_llr,*/
int
BG,
int
row,
int
col,
int
Zc
)
{
int
iMCW
=
blockIdx.y
;
int
iBlkCol
=
blockIdx.x
;
int
iBlkRow
;
int
iSubCol
=
threadIdx.x
;
int
iRow
;
int
iCol
;
int
shift_t,
sf
;
int
APP
;
h_element
h_element_t
;
//
update
all
the
llr
values
iCol
=
iBlkCol
*
Zc
+
iSubCol
;
APP
=
dev_const_llr[iMCW
*col*
Zc
+
iCol]
;
int
offsetDt
=
iMCW
*row*col*
Zc
+
iBlkCol
*
row
*
Zc
;
int
s
=
(
BG==1
)
?
h_ele_col_bg1_count[iBlkCol]:h_ele_col_bg2_count[iBlkCol]
;
for
(
int
i
=
0
; i < s; i++)
{
h_element_t
=
dev_h_compact2[i*col+iBlkCol]
;
shift_t
=
h_element_t.value%Zc
;
iBlkRow
=
h_element_t.x
;
sf
=
iSubCol
-
shift_t
;
sf
=
(
sf
+
Zc
)
%
Zc
;
iRow
=
iBlkRow
*
Zc
+
sf
;
APP
=
APP
+
dev_dt[offsetDt
+
iRow]
;
}
if
(
APP
>
SCHAR_MAX
)
APP
=
SCHAR_MAX
;
if
(
APP
<
SCHAR_MIN
)
APP
=
SCHAR_MIN
;
//
write
back
to
device
global
memory
dev_llr[iMCW
*col*
Zc
+
iCol]
=
APP
;
}
__kernel
void
pack_decoded_bit
(
/*char
*dev,
unsigned
char
*host,*
/
int
col,
int
Zc
)
{
__shared__
unsigned
char
tmp[128]
;
int
iMCW
=
blockIdx.y
;
int
tid
=
iMCW
*
col*Zc
+
blockIdx.x*128
+
threadIdx.x
;
int
btid
=
threadIdx.x
;
tmp[btid]
=
0
;
if
(
dev_llr[tid]
<
0
)
{
tmp[btid]
=
1
<<
(
7-
(
btid&7
))
;
}
__syncthreads
()
;
if
(
threadIdx.x
<
16
)
{
dev_tmp[iMCW
*
col*Zc
+
blockIdx.x*16+threadIdx.x]
=
0
;
for
(
int
i
=
0
; i < 8; i++){
dev_tmp[iMCW
*
col*Zc
+
blockIdx.x*16+threadIdx.x]
+=
tmp[threadIdx.x*8+i]
;
}
}
}
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