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ZhouShuya
OpenXG-RAN
Commits
37bb310a
Commit
37bb310a
authored
Jun 15, 2020
by
WANG Tsu-Han
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redefine conflict resolve
parent
527c3bcd
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-268
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_decoder_LYC.cu
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_decoder_LYC.cu
+2
-2
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_defs.h
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_defs.h
+0
-162
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_init_mem.h
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_init_mem.h
+34
-33
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_types.h
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_types.h
+0
-71
No files found.
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_decoder_LYC.cu
View file @
37bb310a
...
...
@@ -12,8 +12,8 @@
#include <unistd.h>
#include <cuda_runtime.h>
#include <cuda.h>
#include "PHY/CODING/nrLDPC_decoder
_LYC
/nrLDPC_types.h"
#include "PHY/CODING/nrLDPC_decoder
_LYC/nrLDPC
_defs.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_types.h"
#include "PHY/CODING/nrLDPC_decoder
/nrLDPCdecoder
_defs.h"
#include "bgs/BG1_I0"
#include "bgs/BG1_I1"
...
...
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_defs.h
View file @
37bb310a
...
...
@@ -46,167 +46,5 @@
// DEFINES
/** Maximum lifting size */
#define NR_LDPC_ZMAX 384
/** Number of columns in BG1 */
#define NR_LDPC_NCOL_BG1 68
/** Number of rows in BG1 */
#define NR_LDPC_NROW_BG1 46
/** Number of edges/entries in BG1 */
#define NR_LDPC_NUM_EDGE_BG1 316
/** Number of check node (CN) groups in BG1
A CN group is defined by its number of connected bit nodes. */
#define NR_LDPC_NUM_CN_GROUPS_BG1 9
/** First column in BG1 that is connected to only a single CN */
#define NR_LDPC_START_COL_PARITY_BG1 26
/** Number of columns in BG1 for rate 1/3 = 22/(68-2) */
#define NR_LDPC_NCOL_BG1_R13 NR_LDPC_NCOL_BG1
/** Number of columns in BG1 for rate 2/3 = 22/(35-2) */
#define NR_LDPC_NCOL_BG1_R23 35
/** Number of columns in BG1 for rate 8/9 ~ 22/(27-2) */
#define NR_LDPC_NCOL_BG1_R89 27
/** Number of bit node (BN) groups in BG1 for rate 1/3
A BN group is defined by its number of connected CNs. */
#define NR_LDPC_NUM_BN_GROUPS_BG1_R13 30
/** Number of bit node (BN) groups in BG1 for rate 2/3 */
#define NR_LDPC_NUM_BN_GROUPS_BG1_R23 8
/** Number of bit node (BN) groups in BG1 for rate 8/9 */
#define NR_LDPC_NUM_BN_GROUPS_BG1_R89 5
/** Number of columns in BG2 */
#define NR_LDPC_NCOL_BG2 52
/** Number of rows in BG2 */
#define NR_LDPC_NROW_BG2 42
/** Number of edges/entries in BG2 */
#define NR_LDPC_NUM_EDGE_BG2 197
/** Number of check node (CN) groups in BG2
A CN group is defined by its number of connected bit nodes. */
#define NR_LDPC_NUM_CN_GROUPS_BG2 6
/** First column in BG2 that is connected to only a single CN */
#define NR_LDPC_START_COL_PARITY_BG2 14
/** Number of columns in BG2 for rate 1/5 = 10/(52-2) */
#define NR_LDPC_NCOL_BG2_R15 NR_LDPC_NCOL_BG2
/** Number of columns in BG2 for rate 1/3 = 10/(32-2) */
#define NR_LDPC_NCOL_BG2_R13 32
/** Number of columns in BG2 for rate 2/3 = 10/(17-2) */
#define NR_LDPC_NCOL_BG2_R23 17
/** Number of bit node (BN) groups in BG2 for rate 1/5
A BN group is defined by its number of connected CNs. */
#define NR_LDPC_NUM_BN_GROUPS_BG2_R15 23
/** Number of bit node (BN) groups in BG2 for rate 1/3 */
#define NR_LDPC_NUM_BN_GROUPS_BG2_R13 10
/** Number of bit node (BN) groups in BG2 for rate 2/3 */
#define NR_LDPC_NUM_BN_GROUPS_BG2_R23 6
/** Worst case size of the CN processing buffer */
#define NR_LDPC_SIZE_CN_PROC_BUF NR_LDPC_NUM_EDGE_BG1*NR_LDPC_ZMAX
/** Worst case size of the BN processing buffer */
#define NR_LDPC_SIZE_BN_PROC_BUF NR_LDPC_NUM_EDGE_BG1*NR_LDPC_ZMAX
/** Maximum number of possible input LLR = NR_LDPC_NCOL_BG1*NR_LDPC_ZMAX */
#define NR_LDPC_MAX_NUM_LLR 26112
// ==============================================================================
// GLOBAL CONSTANT VARIABLES
/** Start addresses for the cnProcBuf for each CN group in BG1*/
static
const
uint32_t
lut_startAddrCnGroups_BG1
[
NR_LDPC_NUM_CN_GROUPS_BG1
]
=
{
0
,
1152
,
8832
,
43392
,
61824
,
75264
,
81408
,
88320
,
92160
};
/** Start addresses for the cnProcBuf for each CN group in BG2*/
static
const
uint32_t
lut_startAddrCnGroups_BG2
[
NR_LDPC_NUM_CN_GROUPS_BG2
]
=
{
0
,
6912
,
37632
,
54912
,
61824
,
67968
};
/** Number of BNs of CN group for BG1.
E.g. 10 means that there is a CN group where every CN is connected to 10 BNs */
static
const
uint8_t
lut_numBnInCnGroups_BG1_R13
[
NR_LDPC_NUM_CN_GROUPS_BG1
]
=
{
3
,
4
,
5
,
6
,
7
,
8
,
9
,
10
,
19
};
/** Number of rows/CNs in every CN group for rate = 1/3 BG1, e.g. 5 rows of CNs connected to 4 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG1_R13
[
NR_LDPC_NUM_CN_GROUPS_BG1
]
=
{
1
,
5
,
18
,
8
,
5
,
2
,
2
,
1
,
4
};
/** Number of rows/CNs in every CN group for rate = 2/3 BG1, e.g. 3 rows of CNs connected to 7 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG1_R23
[
NR_LDPC_NUM_CN_GROUPS_BG1
]
=
{
1
,
0
,
0
,
0
,
3
,
2
,
2
,
1
,
4
};
/** Number of rows/CNs in every CN group for rate = 8/9 BG1, e.g. 4 rows of CNs connected to 19 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG1_R89
[
NR_LDPC_NUM_CN_GROUPS_BG1
]
=
{
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
4
};
/** Number of connected BNs for every column in BG1 rate = 1/3, e.g. in first column all BNs are connected to 30 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG1_R13
[
NR_LDPC_START_COL_PARITY_BG1
]
=
{
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
};
/** Number of connected BNs for every column in BG1 rate = 2/3, e.g. in first column all BNs are connected to 12 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG1_R23
[
NR_LDPC_START_COL_PARITY_BG1
]
=
{
12
,
11
,
4
,
5
,
5
,
3
,
4
,
5
,
5
,
3
,
6
,
6
,
6
,
6
,
5
,
3
,
6
,
5
,
6
,
4
,
5
,
6
,
6
,
3
,
3
,
2
};
/** Number of connected BNs for every column in BG1 rate = 8/9, e.g. in first column all BNs are connected to 5 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG1_R89
[
NR_LDPC_START_COL_PARITY_BG1
]
=
{
5
,
4
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
3
,
2
,
2
,
2
};
/** Number of BNs of CN group for BG2.
E.g. 3 means that there is a CN group where every CN is connected to 3 BNs */
static
const
uint8_t
lut_numBnInCnGroups_BG2_R15
[
NR_LDPC_NUM_CN_GROUPS_BG2
]
=
{
3
,
4
,
5
,
6
,
8
,
10
};
/** Number of rows/CNs in every CN group for rate = 1/5 BG2, e.g. 6 rows of CNs connected to 3 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG2_R15
[
NR_LDPC_NUM_CN_GROUPS_BG2
]
=
{
6
,
20
,
9
,
3
,
2
,
2
};
/** Number of rows/CNs in every CN group for rate = 1/3 BG2, e.g. 8 rows of CNs connected to 4 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG2_R13
[
NR_LDPC_NUM_CN_GROUPS_BG2
]
=
{
0
,
8
,
7
,
3
,
2
,
2
};
/** Number of rows/CNs in every CN group for rate = 2/3 BG2, e.g. 1 row of CNs connected to 4 BNs */
static
const
uint8_t
lut_numCnInCnGroups_BG2_R23
[
NR_LDPC_NUM_CN_GROUPS_BG2
]
=
{
0
,
1
,
0
,
2
,
2
,
2
};
/** Number of connected BNs for every column in BG2 rate = 1/5, e.g. in first column all BNs are connected to 22 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG2_R15
[
NR_LDPC_START_COL_PARITY_BG2
]
=
{
22
,
23
,
10
,
5
,
5
,
14
,
7
,
13
,
6
,
8
,
9
,
16
,
9
,
12
};
/** Number of connected BNs for every column in BG2 rate = 1/3, e.g. in first column all BNs are connected to 14 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG2_R13
[
NR_LDPC_START_COL_PARITY_BG2
]
=
{
14
,
16
,
2
,
4
,
4
,
6
,
6
,
8
,
6
,
6
,
6
,
13
,
5
,
7
};
/** Number of connected BNs for every column in BG2 rate = 2/3, e.g. in first column all BNs are connected to 6 CNs */
static
const
uint8_t
lut_numEdgesPerBn_BG2_R23
[
NR_LDPC_START_COL_PARITY_BG2
]
=
{
6
,
5
,
2
,
3
,
3
,
4
,
3
,
4
,
3
,
4
,
3
,
5
,
2
,
2
};
// Number of groups for bit node processing
/** Number of connected CNs for every column/BN in BG1 for rate = 1/3, Worst case is BG1 with up to 30 CNs connected to one BN
E.g. 42 parity BNs connected to single CN */
// BG1: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
static
const
uint8_t
lut_numBnInBnGroups_BG1_R13
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
42
,
0
,
0
,
1
,
1
,
2
,
4
,
3
,
1
,
4
,
3
,
4
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
1
,
0
,
1
};
/** Number of connected CNs for every column/BN in BG1 for rate = 2/3 */
static
const
uint8_t
lut_numBnInBnGroups_BG1_R23
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
9
,
1
,
5
,
3
,
7
,
8
,
0
,
0
,
0
,
0
,
1
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
/** Number of connected CNs for every column/BN in BG1 for rate = 8/9 */
static
const
uint8_t
lut_numBnInBnGroups_BG1_R89
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
1
,
3
,
21
,
1
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
/** Number of connected CNs for every column/BN in BG2 for rate = 1/5, Worst case is BG1 with up to 30 CNs connected to one BN
E.g. 38 parity BNs connected to single CN */
// BG2: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
static
const
uint8_t
lut_numBnInBnGroups_BG2_R15
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
38
,
0
,
0
,
0
,
2
,
1
,
1
,
1
,
2
,
1
,
0
,
1
,
1
,
1
,
0
,
1
,
0
,
0
,
0
,
0
,
0
,
1
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
/** Number of connected CNs for every column/BN in BG2 for rate = 1/3 */
static
const
uint8_t
lut_numBnInBnGroups_BG2_R13
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
18
,
1
,
0
,
2
,
1
,
5
,
1
,
1
,
0
,
0
,
0
,
0
,
1
,
1
,
0
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
/** Number of connected CNs for every column/BN in BG2 for rate = 2/3 */
static
const
uint8_t
lut_numBnInBnGroups_BG2_R23
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
3
,
3
,
5
,
3
,
2
,
1
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
// Start addresses for the bnProcBuf for each BN group
// BG1
/** Start address for every BN group within the BN processing buffer for BG1 rate = 1/3 */
static
const
uint32_t
lut_startAddrBnGroups_BG1_R13
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
0
,
16128
,
17664
,
19584
,
24192
,
34944
,
44160
,
47616
,
62976
,
75648
,
94080
,
99072
,
109824
};
/** Start address for every BN group within the BN processing buffer for BG1 rate = 2/3 */
static
const
uint32_t
lut_startAddrBnGroups_BG1_R23
[
NR_LDPC_NUM_BN_GROUPS_BG1_R23
]
=
{
0
,
3456
,
4224
,
9984
,
14592
,
28032
,
46464
,
50688
};
/** Start address for every BN group within the BN processing buffer for BG1 rate = 8/9 */
static
const
uint32_t
lut_startAddrBnGroups_BG1_R89
[
NR_LDPC_NUM_BN_GROUPS_BG1_R89
]
=
{
0
,
384
,
2688
,
26880
,
28416
};
/** Start address for every BN group within the LLR processing buffer for BG1 rate = 1/3 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG1_R13
[
NR_LDPC_NUM_BN_GROUPS_BG1_R13
]
=
{
0
,
16128
,
16512
,
16896
,
17664
,
19200
,
20352
,
20736
,
22272
,
23424
,
24960
,
25344
,
25728
};
/** Start address for every BN group within the LLR processing buffer for BG1 rate = 2/3 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG1_R23
[
NR_LDPC_NUM_BN_GROUPS_BG1_R23
]
=
{
0
,
3456
,
3840
,
5760
,
6912
,
9600
,
12672
,
13056
};
/** Start address for every BN group within the LLR processing buffer for BG1 rate = 8/9 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG1_R89
[
NR_LDPC_NUM_BN_GROUPS_BG1_R89
]
=
{
0
,
384
,
1536
,
9600
,
9984
};
// BG2
/** Start address for every BN group within the BN processing buffer for BG2 rate = 1/5 */
static
const
uint32_t
lut_startAddrBnGroups_BG2_R15
[
NR_LDPC_NUM_BN_GROUPS_BG2_R15
]
=
{
0
,
14592
,
18432
,
20736
,
23424
,
26496
,
33408
,
37248
,
41856
,
46848
,
52224
,
58368
,
66816
};
/** Start address for every BN group within the BN processing buffer for BG2 rate = 1/3 */
static
const
uint32_t
lut_startAddrBnGroups_BG2_R13
[
NR_LDPC_NUM_BN_GROUPS_BG2_R13
]
=
{
0
,
6912
,
7680
,
10752
,
12672
,
24192
,
26880
,
29952
,
34944
,
40320
};
/** Start address for every BN group within the BN processing buffer for BG2 rate = 2/3 */
static
const
uint32_t
lut_startAddrBnGroups_BG2_R23
[
NR_LDPC_NUM_BN_GROUPS_BG2_R23
]
=
{
0
,
1152
,
3456
,
9216
,
13824
,
17664
};
/** Start address for every BN group within the LLR processing buffer for BG2 rate = 1/5 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG2_R15
[
NR_LDPC_NUM_BN_GROUPS_BG2_R15
]
=
{
0
,
14592
,
15360
,
15744
,
16128
,
16512
,
17280
,
17664
,
18048
,
18432
,
18816
,
19200
,
19584
};
/** Start address for every BN group within the LLR processing buffer for BG2 rate = 1/3 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG2_R13
[
NR_LDPC_NUM_BN_GROUPS_BG2_R13
]
=
{
0
,
6912
,
7296
,
8064
,
8448
,
10368
,
10752
,
11136
,
11520
,
11904
};
/** Start address for every BN group within the LLR processing buffer for BG2 rate = 2/3 */
static
const
uint16_t
lut_startAddrBnGroupsLlr_BG2_R23
[
NR_LDPC_NUM_BN_GROUPS_BG2_R23
]
=
{
0
,
1152
,
2304
,
4224
,
5376
,
6144
};
/** Vector of 32 '1' in int8 for application with AVX2 */
static
const
int8_t
ones256_epi8
[
32
]
__attribute__
((
aligned
(
32
)))
=
{
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
};
/** Vector of 32 '0' in int8 for application with AVX2 */
static
const
int8_t
zeros256_epi8
[
32
]
__attribute__
((
aligned
(
32
)))
=
{
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
/** Vector of 32 '127' in int8 for application with AVX2 */
static
const
int8_t
maxLLR256_epi8
[
32
]
__attribute__
((
aligned
(
32
)))
=
{
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
,
127
};
#endif
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_init_mem.h
View file @
37bb310a
...
...
@@ -32,8 +32,9 @@
#define __NR_LDPC_DECODER_LYC__NR_LDPC_INIT_MEM__H__
#include <stdlib.h>
#include "nrLDPC_defs.h"
#include "nrLDPC_types.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_types.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPCdecoder_defs.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_init_mem.h"
#ifndef malloc32_clear
/**
...
...
@@ -41,12 +42,12 @@
\param size Input size in bytes
\return Pointer to memory
*/
static
inline
void
*
malloc32_clear
(
size_t
size
)
{
void
*
ptr
=
(
void
*
)
memalign
(
32
,
size
+
32
);
memset
(
ptr
,
0
,
size
);
return
ptr
;
}
//
static inline void* malloc32_clear(size_t size)
//
{
//
void* ptr = (void*) memalign(32, size+32);
//
memset(ptr, 0, size);
//
return ptr;
//
}
#endif
/**
...
...
@@ -55,32 +56,32 @@ static inline void* malloc32_clear(size_t size)
\param p_lut Pointer to decoder LUTs
\return Number of LLR values
*/
static
inline
t_nrLDPC_procBuf
*
nrLDPC_init_mem
(
void
)
{
t_nrLDPC_procBuf
*
p_procBuf
=
(
t_nrLDPC_procBuf
*
)
malloc32_clear
(
sizeof
(
t_nrLDPC_procBuf
));
//
static inline t_nrLDPC_procBuf* nrLDPC_init_mem(void)
//
{
//
t_nrLDPC_procBuf* p_procBuf = (t_nrLDPC_procBuf*) malloc32_clear(sizeof(t_nrLDPC_procBuf));
if
(
p_procBuf
)
{
p_procBuf
->
cnProcBuf
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_SIZE_CN_PROC_BUF
*
sizeof
(
int8_t
));
p_procBuf
->
cnProcBufRes
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_SIZE_CN_PROC_BUF
*
sizeof
(
int8_t
));
p_procBuf
->
bnProcBuf
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_SIZE_BN_PROC_BUF
*
sizeof
(
int8_t
));
p_procBuf
->
bnProcBufRes
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_SIZE_BN_PROC_BUF
*
sizeof
(
int8_t
));
p_procBuf
->
llrRes
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_MAX_NUM_LLR
*
sizeof
(
int8_t
));
p_procBuf
->
llrProcBuf
=
(
int8_t
*
)
malloc32_clear
(
NR_LDPC_MAX_NUM_LLR
*
sizeof
(
int8_t
));
}
//
if (p_procBuf)
//
{
//
p_procBuf->cnProcBuf = (int8_t*) malloc32_clear(NR_LDPC_SIZE_CN_PROC_BUF*sizeof(int8_t));
//
p_procBuf->cnProcBufRes = (int8_t*) malloc32_clear(NR_LDPC_SIZE_CN_PROC_BUF*sizeof(int8_t));
//
p_procBuf->bnProcBuf = (int8_t*) malloc32_clear(NR_LDPC_SIZE_BN_PROC_BUF*sizeof(int8_t));
//
p_procBuf->bnProcBufRes = (int8_t*) malloc32_clear(NR_LDPC_SIZE_BN_PROC_BUF*sizeof(int8_t));
//
p_procBuf->llrRes = (int8_t*) malloc32_clear(NR_LDPC_MAX_NUM_LLR *sizeof(int8_t));
//
p_procBuf->llrProcBuf = (int8_t*) malloc32_clear(NR_LDPC_MAX_NUM_LLR *sizeof(int8_t));
//
}
return
(
p_procBuf
);
}
//
return(p_procBuf);
//
}
static
inline
void
nrLDPC_free_mem
(
t_nrLDPC_procBuf
*
p_procBuf
)
{
free
(
p_procBuf
->
cnProcBuf
);
free
(
p_procBuf
->
cnProcBufRes
);
free
(
p_procBuf
->
bnProcBuf
);
free
(
p_procBuf
->
bnProcBufRes
);
free
(
p_procBuf
->
llrRes
);
free
(
p_procBuf
->
llrProcBuf
);
//
static inline void nrLDPC_free_mem(t_nrLDPC_procBuf* p_procBuf)
//
{
//
free(p_procBuf->cnProcBuf);
//
free(p_procBuf->cnProcBufRes);
//
free(p_procBuf->bnProcBuf);
//
free(p_procBuf->bnProcBufRes);
//
free(p_procBuf->llrRes);
//
free(p_procBuf->llrProcBuf);
free
(
p_procBuf
);
}
//
free(p_procBuf);
//
}
#endif
openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_types.h
View file @
37bb310a
...
...
@@ -31,76 +31,5 @@
#ifndef __NR_LDPC_DECODER_LYC__NR_LDPC_TYPES__H__
#define __NR_LDPC_DECODER_LYC__NR_LDPC_TYPES__H__
#include "PHY/TOOLS/time_meas.h"
#include "nrLDPC_defs.h"
// ==============================================================================
// TYPES
/**
Structure containing the pointers to the LUTs.
*/
typedef
struct
nrLDPC_lut
{
const
uint32_t
*
startAddrCnGroups
;
/**< Start addresses for CN groups in CN processing buffer */
const
uint8_t
*
numCnInCnGroups
;
/**< Number of CNs in every CN group */
const
uint8_t
*
numBnInBnGroups
;
/**< Number of CNs in every BN group */
const
uint32_t
*
startAddrBnGroups
;
/**< Start addresses for BN groups in BN processing buffer */
const
uint16_t
*
startAddrBnGroupsLlr
;
/**< Start addresses for BN groups in LLR processing buffer */
const
uint16_t
**
circShift
[
NR_LDPC_NUM_CN_GROUPS_BG1
];
/**< LUT for circular shift values for all CN groups and Zs */
const
uint32_t
**
startAddrBnProcBuf
[
NR_LDPC_NUM_CN_GROUPS_BG1
];
/**< LUT of start addresses of CN groups in BN proc buffer */
const
uint8_t
**
bnPosBnProcBuf
[
NR_LDPC_NUM_CN_GROUPS_BG1
];
/**< LUT of BN positions in BG for CN groups */
const
uint16_t
*
llr2llrProcBufAddr
;
/**< LUT for transferring input LLRs to LLR processing buffer */
const
uint8_t
*
llr2llrProcBufBnPos
;
/**< LUT BN position in BG */
const
uint8_t
**
posBnInCnProcBuf
[
NR_LDPC_NUM_CN_GROUPS_BG1
];
/**< LUT for llr2cnProcBuf */
}
t_nrLDPC_lut
;
/**
Enum with possible LDPC output formats.
*/
typedef
enum
nrLDPC_outMode
{
nrLDPC_outMode_BIT
,
/**< 32 bits per uint32_t output */
nrLDPC_outMode_BITINT8
,
/**< 1 bit per int8_t output */
nrLDPC_outMode_LLRINT8
/**< Single LLR value per int8_t output */
}
e_nrLDPC_outMode
;
/**
Structure containing LDPC decoder parameters.
*/
typedef
struct
nrLDPC_dec_params
{
uint8_t
BG
;
/**< Base graph */
uint16_t
Z
;
/**< Lifting size */
uint8_t
R
;
/**< Decoding rate: Format 15,13,... for code rates 1/5, 1/3,... */
uint8_t
numMaxIter
;
/**< Maximum number of iterations */
e_nrLDPC_outMode
outMode
;
/**< Output format */
}
t_nrLDPC_dec_params
;
/**
Structure containing LDPC decoder processing time statistics.
*/
typedef
struct
nrLDPC_time_stats
{
time_stats_t
llr2llrProcBuf
;
/**< Statistics for function llr2llrProcBuf */
time_stats_t
llr2CnProcBuf
;
/**< Statistics for function llr2CnProcBuf */
time_stats_t
cnProc
;
/**< Statistics for function cnProc */
time_stats_t
cnProcPc
;
/**< Statistics for function cnProcPc */
time_stats_t
bnProcPc
;
/**< Statistics for function bnProcPc */
time_stats_t
bnProc
;
/**< Statistics for function bnProc */
time_stats_t
cn2bnProcBuf
;
/**< Statistics for function cn2bnProcBuf */
time_stats_t
bn2cnProcBuf
;
/**< Statistics for function bn2cnProcBuf */
time_stats_t
llrRes2llrOut
;
/**< Statistics for function llrRes2llrOut */
time_stats_t
llr2bit
;
/**< Statistics for function llr2bit */
time_stats_t
total
;
/**< Statistics for total processing time */
}
t_nrLDPC_time_stats
;
/**
Structure containing the processing buffers
*/
typedef
struct
nrLDPC_procBuf
{
int8_t
*
cnProcBuf
;
/**< CN processing buffer */
int8_t
*
cnProcBufRes
;
/**< Buffer for CN processing results */
int8_t
*
bnProcBuf
;
/**< BN processing buffer */
int8_t
*
bnProcBufRes
;
/**< Buffer for BN processing results */
int8_t
*
llrRes
;
/**< Buffer for LLR results */
int8_t
*
llrProcBuf
;
/**< LLR processing buffer */
}
t_nrLDPC_procBuf
;
#endif
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