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zzha zzha
OpenXG-RAN
Commits
6e29ff08
Commit
6e29ff08
authored
Aug 29, 2018
by
Florian Kaltenberger
Browse files
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Email Patches
Plain Diff
patch from Milan Zivkovic (Nokia Bell Labs)
parent
5520c2eb
Changes
6
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Showing
6 changed files
with
749 additions
and
164 deletions
+749
-164
cmake_targets/build_oai
cmake_targets/build_oai
+1
-1
openair1/PHY/CODING/TESTBENCH/ldpctest.c
openair1/PHY/CODING/TESTBENCH/ldpctest.c
+466
-103
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.c
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.c
+3
-0
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder.c
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder.c
+1
-1
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder2.c
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder2.c
+251
-28
openair1/PHY/CODING/nrLDPC_encoder/ldpc_generate_coefficient.c
...ir1/PHY/CODING/nrLDPC_encoder/ldpc_generate_coefficient.c
+27
-31
No files found.
cmake_targets/build_oai
View file @
6e29ff08
...
...
@@ -686,7 +686,7 @@ function main() {
echo_info
"Compiling unitary tests simulators"
# TODO: fix: dlsim_tm4 pucchsim prachsim pdcchsim pbchsim mbmssim
#simlist="dlsim_tm4 dlsim ulsim pucchsim prachsim pdcchsim pbchsim mbmssim"
simlist
=
"dlsim ulsim"
simlist
=
"dlsim ulsim
polartest ldpctest
"
for
f
in
$simlist
;
do
compilations
\
lte-simulators
$f
\
...
...
openair1/PHY/CODING/TESTBENCH/ldpctest.c
View file @
6e29ff08
This diff is collapsed.
Click to expand it.
openair1/PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.c
View file @
6e29ff08
...
...
@@ -38,6 +38,9 @@
#include "nrLDPC_cnProc.h"
#include "nrLDPC_bnProc.h"
#define NR_LDPC_ENABLE_PARITY_CHECK
#define NR_LDPC_PROFILER_DETAIL
#ifdef NR_LDPC_DEBUG_MODE
#include "nrLDPC_tools/nrLDPC_debug.h"
#endif
...
...
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder.c
View file @
6e29ff08
openair1/PHY/CODING/nrLDPC_encoder/ldpc_encoder2.c
View file @
6e29ff08
...
...
@@ -201,7 +201,7 @@ void encode_parity_check_part_optim(uint8_t *c,uint8_t *d, short BG,short Zc,sho
int
ldpc_encoder_optim
(
unsigned
char
*
test_input
,
unsigned
char
*
channel_input
,
short
block_length
,
short
BG
,
time_stats_t
*
tinput
,
time_stats_t
*
tprep
,
time_stats_t
*
tparity
,
time_stats_t
*
toutput
)
{
short
Kb
,
Zc
,
nrows
,
ncols
;
short
Zc
,
Kb
,
nrows
,
ncols
;
int
i
,
i1
;
int
no_punctured_columns
,
removed_bit
;
...
...
@@ -211,14 +211,19 @@ int ldpc_encoder_optim(unsigned char *test_input,unsigned char *channel_input,sh
int
simd_size
;
//determine number of bits in codeword
//determine number of bits in codeword
//if (block_length>3840)
if
(
BG
==
1
)
{
//BG=1;
Kb
=
22
;
nrows
=
46
;
//parity check bits
ncols
=
22
;
//info bits
}
//else if (block_length<=3840)
else
if
(
BG
==
2
)
{
//BG=2;
nrows
=
42
;
//parity check bits
ncols
=
10
;
// info bits
...
...
@@ -316,7 +321,7 @@ int ldpc_encoder_optim(unsigned char *test_input,unsigned char *channel_input,sh
int
ldpc_encoder_optim_8seg
(
unsigned
char
**
test_input
,
unsigned
char
**
channel_input
,
short
block_length
,
short
BG
,
int
n_segments
,
time_stats_t
*
tinput
,
time_stats_t
*
tprep
,
time_stats_t
*
tparity
,
time_stats_t
*
toutput
)
{
short
Kb
,
Zc
,
nrows
,
ncols
;
short
Zc
,
Kb
,
nrows
,
ncols
;
int
i
,
i1
,
j
;
int
no_punctured_columns
,
removed_bit
;
//Table of possible lifting sizes
...
...
@@ -343,14 +348,18 @@ int ldpc_encoder_optim_8seg(unsigned char **test_input,unsigned char **channel_i
AssertFatal
(
n_segments
>
0
&&
n_segments
<=
8
,
"0 < n_segments %d <= 8
\n
"
,
n_segments
);
//determine number of bits in codeword
//if (block_length>3840)
if
(
BG
==
1
)
{
//BG=1;
Kb
=
22
;
nrows
=
46
;
//parity check bits
ncols
=
22
;
//info bits
}
//else if (block_length<=3840)
else
if
(
BG
==
2
)
{
//BG=2;
nrows
=
42
;
//parity check bits
ncols
=
10
;
// info bits
...
...
@@ -508,3 +517,217 @@ int ldpc_encoder_optim_8seg(unsigned char **test_input,unsigned char **channel_i
stop_meas
(
toutput
);
return
0
;
}
int
ldpc_encoder_optim_8seg_multi
(
unsigned
char
**
test_input
,
unsigned
char
**
channel_input
,
short
block_length
,
int
nom_rate
,
int
denom_rate
,
int
n_segments
,
unsigned
int
macro_num
,
time_stats_t
*
tinput
,
time_stats_t
*
tprep
,
time_stats_t
*
tparity
,
time_stats_t
*
toutput
)
{
short
BG
,
Zc
,
Kb
,
nrows
,
ncols
;
int
i
,
i1
,
j
;
int
no_punctured_columns
,
removed_bit
;
//Table of possible lifting sizes
short
lift_size
[
51
]
=
{
2
,
3
,
4
,
5
,
6
,
7
,
8
,
9
,
10
,
11
,
12
,
13
,
14
,
15
,
16
,
18
,
20
,
22
,
24
,
26
,
28
,
30
,
32
,
36
,
40
,
44
,
48
,
52
,
56
,
60
,
64
,
72
,
80
,
88
,
96
,
104
,
112
,
120
,
128
,
144
,
160
,
176
,
192
,
208
,
224
,
240
,
256
,
288
,
320
,
352
,
384
};
char
temp
;
int
simd_size
;
int
macro_segment
,
macro_segment_end
;
macro_segment
=
8
*
macro_num
;
macro_segment_end
=
(
n_segments
>
8
*
(
macro_num
+
1
))
?
8
*
(
macro_num
+
1
)
:
n_segments
;
///printf("macro_segment: %d\n", macro_segment);
///printf("macro_segment_end: %d\n", macro_segment_end );
#ifdef __AVX2__
__m256i
shufmask
=
_mm256_set_epi64x
(
0x0303030303030303
,
0x0202020202020202
,
0x0101010101010101
,
0x0000000000000000
);
__m256i
andmask
=
_mm256_set1_epi64x
(
0x8040201008040201
);
// every 8 bits -> 8 bytes, pattern repeats.
__m256i
zero256
=
_mm256_setzero_si256
();
__m256i
masks
[
8
];
register
__m256i
c256
;
masks
[
0
]
=
_mm256_set1_epi8
(
0x1
);
masks
[
1
]
=
_mm256_set1_epi8
(
0x2
);
masks
[
2
]
=
_mm256_set1_epi8
(
0x4
);
masks
[
3
]
=
_mm256_set1_epi8
(
0x8
);
masks
[
4
]
=
_mm256_set1_epi8
(
0x10
);
masks
[
5
]
=
_mm256_set1_epi8
(
0x20
);
masks
[
6
]
=
_mm256_set1_epi8
(
0x40
);
masks
[
7
]
=
_mm256_set1_epi8
(
0x80
);
#endif
///AssertFatal(n_segments>0&&n_segments<=8,"0 < n_segments %d <= 8\n",n_segments);
//determine number of bits in codeword
if
(
block_length
>
3840
)
{
BG
=
1
;
Kb
=
22
;
nrows
=
46
;
//parity check bits
ncols
=
22
;
//info bits
}
else
if
(
block_length
<=
3840
)
{
BG
=
2
;
nrows
=
42
;
//parity check bits
ncols
=
10
;
// info bits
if
(
block_length
>
640
)
Kb
=
10
;
else
if
(
block_length
>
560
)
Kb
=
9
;
else
if
(
block_length
>
192
)
Kb
=
8
;
else
Kb
=
6
;
}
//find minimum value in all sets of lifting size
Zc
=
0
;
for
(
i1
=
0
;
i1
<
51
;
i1
++
)
{
if
(
lift_size
[
i1
]
>=
(
double
)
block_length
/
Kb
)
{
Zc
=
lift_size
[
i1
];
//printf("%d\n",Zc);
break
;
}
}
#ifdef DEBUG_LDPC
LOG_D
(
PHY
,
"ldpc_encoder_optim_8seg: BG %d, Zc %d, Kb %d, block_length %d, segments %d
\n
"
,
BG
,
Zc
,
Kb
,
block_length
,
n_segments
);
LOG_D
(
PHY
,
"ldpc_encoder_optim_8seg: PDU (seg 0) %x %x %x %x
\n
"
,
test_input
[
0
][
0
],
test_input
[
0
][
1
],
test_input
[
0
][
2
],
test_input
[
0
][
3
]);
#endif
AssertFatal
(
Zc
>
0
,
"no valid Zc found for block length %d
\n
"
,
block_length
);
if
((
Zc
&
31
)
>
0
)
simd_size
=
16
;
else
simd_size
=
32
;
unsigned
char
c
[
22
*
Zc
]
__attribute__
((
aligned
(
32
)));
//padded input, unpacked, max size
unsigned
char
d
[
46
*
Zc
]
__attribute__
((
aligned
(
32
)));
//coded parity part output, unpacked, max size
unsigned
char
c_extension
[
2
*
22
*
Zc
*
simd_size
]
__attribute__
((
aligned
(
32
)));
//double size matrix of c
// calculate number of punctured bits
no_punctured_columns
=
(
int
)((
nrows
-
2
)
*
Zc
+
block_length
-
block_length
*
3
)
/
Zc
;
removed_bit
=
(
nrows
-
no_punctured_columns
-
2
)
*
Zc
+
block_length
-
(
int
)(
block_length
*
3
);
// printf("%d\n",no_punctured_columns);
// printf("%d\n",removed_bit);
// unpack input
memset
(
c
,
0
,
sizeof
(
unsigned
char
)
*
ncols
*
Zc
);
memset
(
d
,
0
,
sizeof
(
unsigned
char
)
*
nrows
*
Zc
);
start_meas
(
tinput
);
#if 0
for (i=0; i<block_length; i++) {
//for (j=0; j<n_segments; j++) {
for (j=macro_segment; j < macro_segment_end; j++) {
temp = (test_input[j][i/8]&(1<<(i&7)))>>(i&7);
//printf("c(%d,%d)=%d\n",j,i,temp);
c[i] |= (temp << (j-macro_segment));
}
}
#else
#ifdef __AVX2__
for
(
i
=
0
;
i
<
block_length
>>
5
;
i
++
)
{
c256
=
_mm256_and_si256
(
_mm256_cmpeq_epi8
(
_mm256_andnot_si256
(
_mm256_shuffle_epi8
(
_mm256_set1_epi32
(((
uint32_t
*
)
test_input
[
macro_segment
])[
i
]),
shufmask
),
andmask
),
zero256
),
masks
[
0
]);
//for (j=1; j<n_segments; j++) {
for
(
j
=
macro_segment
+
1
;
j
<
macro_segment_end
;
j
++
)
{
c256
=
_mm256_or_si256
(
_mm256_and_si256
(
_mm256_cmpeq_epi8
(
_mm256_andnot_si256
(
_mm256_shuffle_epi8
(
_mm256_set1_epi32
(((
uint32_t
*
)
test_input
[
j
])[
i
]),
shufmask
),
andmask
),
zero256
),
masks
[
j
-
macro_segment
]),
c256
);
}
((
__m256i
*
)
c
)[
i
]
=
c256
;
}
for
(
i
=
(
block_length
>>
5
)
<<
5
;
i
<
block_length
;
i
++
)
{
//for (j=0; j<n_segments; j++) {
for
(
j
=
macro_segment
;
j
<
macro_segment_end
;
j
++
)
{
temp
=
(
test_input
[
j
][
i
/
8
]
&
(
1
<<
(
i
&
7
)))
>>
(
i
&
7
);
//printf("c(%d,%d)=%d\n",j,i,temp);
c
[
i
]
|=
(
temp
<<
(
j
-
macro_segment
));
}
}
#else
AssertFatal
(
1
==
0
,
"Need AVX2 for this
\n
"
);
#endif
#endif
stop_meas
(
tinput
);
if
((
BG
==
1
&&
Zc
>
176
)
||
(
BG
==
2
&&
Zc
>
64
))
{
// extend matrix
start_meas
(
tprep
);
for
(
i1
=
0
;
i1
<
ncols
;
i1
++
)
{
memcpy
(
&
c_extension
[
2
*
i1
*
Zc
],
&
c
[
i1
*
Zc
],
Zc
*
sizeof
(
unsigned
char
));
memcpy
(
&
c_extension
[(
2
*
i1
+
1
)
*
Zc
],
&
c
[
i1
*
Zc
],
Zc
*
sizeof
(
unsigned
char
));
}
for
(
i1
=
1
;
i1
<
simd_size
;
i1
++
)
{
memcpy
(
&
c_extension
[(
2
*
ncols
*
Zc
*
i1
)],
&
c_extension
[
i1
],
(
2
*
ncols
*
Zc
*
sizeof
(
unsigned
char
))
-
i1
);
// memset(&c_extension[(2*ncols*Zc*i1)],0,i1);
/*
printf("shift %d: ",i1);
for (int j=0;j<64;j++) printf("%d ",c_extension[(2*ncols*Zc*i1)+j]);
printf("\n");
*/
}
stop_meas
(
tprep
);
//parity check part
start_meas
(
tparity
);
encode_parity_check_part_optim
(
c_extension
,
d
,
BG
,
Zc
,
Kb
);
stop_meas
(
tparity
);
}
else
{
if
(
encode_parity_check_part_orig
(
c
,
d
,
BG
,
Zc
,
Kb
,
block_length
)
!=
0
)
{
printf
(
"Problem with encoder
\n
"
);
return
(
-
1
);
}
}
start_meas
(
toutput
);
// information part and puncture columns
/*
memcpy(&channel_input[0], &c[2*Zc], (block_length-2*Zc)*sizeof(unsigned char));
memcpy(&channel_input[block_length-2*Zc], &d[0], ((nrows-no_punctured_columns) * Zc-removed_bit)*sizeof(unsigned char));
*/
#ifdef __AVX2__
if
((((
2
*
Zc
)
&
31
)
==
0
)
&&
(((
block_length
-
(
2
*
Zc
))
&
31
)
==
0
))
{
//AssertFatal(((2*Zc)&31) == 0,"2*Zc needs to be a multiple of 32 for now\n");
//AssertFatal(((block_length-(2*Zc))&31) == 0,"block_length-(2*Zc) needs to be a multiple of 32 for now\n");
uint32_t
l1
=
(
block_length
-
(
2
*
Zc
))
>>
5
;
uint32_t
l2
=
((
nrows
-
no_punctured_columns
)
*
Zc
-
removed_bit
)
>>
5
;
__m256i
*
c256p
=
(
__m256i
*
)
&
c
[
2
*
Zc
];
__m256i
*
d256p
=
(
__m256i
*
)
&
d
[
0
];
// if (((block_length-(2*Zc))&31)>0) l1++;
for
(
i
=
0
;
i
<
l1
;
i
++
)
//for (j=0;j<n_segments;j++) ((__m256i *)channel_input[j])[i] = _mm256_and_si256(_mm256_srai_epi16(c256p[i],j),masks[0]);
for
(
j
=
macro_segment
;
j
<
macro_segment_end
;
j
++
)
((
__m256i
*
)
channel_input
[
j
])[
i
]
=
_mm256_and_si256
(
_mm256_srai_epi16
(
c256p
[
i
],
j
-
macro_segment
),
masks
[
0
]);
// if ((((nrows-no_punctured_columns) * Zc-removed_bit)&31)>0) l2++;
for
(
i1
=
0
;
i1
<
l2
;
i1
++
,
i
++
)
//for (j=0;j<n_segments;j++) ((__m256i *)channel_input[j])[i] = _mm256_and_si256(_mm256_srai_epi16(d256p[i1],j),masks[0]);
for
(
j
=
macro_segment
;
j
<
macro_segment_end
;
j
++
)
((
__m256i
*
)
channel_input
[
j
])[
i
]
=
_mm256_and_si256
(
_mm256_srai_epi16
(
d256p
[
i1
],
j
-
macro_segment
),
masks
[
0
]);
}
else
{
#ifdef DEBUG_LDPC
LOG_W
(
PHY
,
"using non-optimized version
\n
"
);
#endif
// do non-SIMD version
for
(
i
=
0
;
i
<
(
block_length
-
2
*
Zc
);
i
++
)
//for (j=0; j<n_segments; j++)
for
(
j
=
macro_segment
;
j
<
macro_segment_end
;
j
++
)
channel_input
[
j
][
i
]
=
(
c
[
2
*
Zc
+
i
]
>>
(
j
-
macro_segment
))
&
1
;
for
(
i
=
0
;
i
<
((
nrows
-
no_punctured_columns
)
*
Zc
-
removed_bit
);
i
++
)
//for (j=0; j<n_segments; j++)
for
(
j
=
macro_segment
;
j
<
macro_segment_end
;
j
++
)
channel_input
[
j
][
block_length
-
2
*
Zc
+
i
]
=
(
d
[
i
]
>>
(
j
-
macro_segment
))
&
1
;
}
#else
AssertFatal
(
1
==
0
,
"Need AVX2 for now
\n
"
);
#endif
stop_meas
(
toutput
);
return
0
;
}
openair1/PHY/CODING/nrLDPC_encoder/ldpc_generate_coefficient.c
View file @
6e29ff08
...
...
@@ -361,7 +361,7 @@ short *choose_generator_matrix(short BG,short Zc)
return
Gen_shift_values
;
}
int
ldpc_encoder_orig
(
unsigned
char
*
test_input
,
unsigned
char
*
channel_input
,
short
block_length
,
short
BG
,
unsigned
char
gen_code
)
int
ldpc_encoder_orig
(
unsigned
char
*
test_input
,
unsigned
char
*
channel_input
,
short
block_length
,
short
BG
,
unsigned
char
gen_code
)
{
unsigned
char
c
[
22
*
384
];
//padded input, unpacked, max size
unsigned
char
d
[
68
*
384
];
//coded output, unpacked, max size
...
...
@@ -378,14 +378,18 @@ int ldpc_encoder_orig(unsigned char *test_input,unsigned char *channel_input,sho
int
indlist2
[
1000
];
//determine number of bits in codeword
//if (block_length>3840)
if
(
BG
==
1
)
{
//BG=1;
Kb
=
22
;
nrows
=
46
;
//parity check bits
ncols
=
22
;
//info bits
}
//else if (block_length<=3840)
else
if
(
BG
==
2
)
{
//BG=2;
nrows
=
42
;
//parity check bits
ncols
=
10
;
// info bits
...
...
@@ -415,8 +419,6 @@ int ldpc_encoder_orig(unsigned char *test_input,unsigned char *channel_input,sho
return
(
-
1
);
}
int
K
=
ncols
*
Zc
;
Gen_shift_values
=
choose_generator_matrix
(
BG
,
Zc
);
if
(
Gen_shift_values
==
NULL
)
{
printf
(
"ldpc_encoder_orig: could not find generator matrix
\n
"
);
...
...
@@ -438,15 +440,9 @@ int ldpc_encoder_orig(unsigned char *test_input,unsigned char *channel_input,sho
}
no_punctured_columns
=
(
int
)((
nrows
-
2
)
*
Zc
+
block_length
-
block_length
*
3
)
/
Zc
;
//nrows - no_punctured_columns = 2 +2*block_length/Zc
removed_bit
=
(
nrows
-
no_punctured_columns
-
2
)
*
Zc
+
block_length
-
(
block_length
*
3
);
// ((nrows-no_punctured_columns) * Zc-removed_bit) =
// 2Zc + 2*block_length
//printf("%d\n",no_punctured_columns);
//printf("%d\n",removed_bit);
//printf("%d\n",nrows-no_punctured_columns);
//printf("%d\n",((nrows-no_punctured_columns) * Zc-removed_bit));
// unpack input
memset
(
c
,
0
,
sizeof
(
unsigned
char
)
*
ncols
*
Zc
);
memset
(
d
,
0
,
sizeof
(
unsigned
char
)
*
nrows
*
Zc
);
...
...
@@ -614,8 +610,8 @@ int ldpc_encoder_orig(unsigned char *test_input,unsigned char *channel_input,sho
}
// information part and puncture columns
memcpy
(
&
channel_input
[
0
],
&
c
[
2
*
Zc
],
(
block_length
-
2
*
Zc
)
*
sizeof
(
unsigned
char
));
//systematic bits
memcpy
(
&
channel_input
[
block_length
-
2
*
Zc
],
&
d
[
0
],
((
nrows
-
no_punctured_columns
)
*
Zc
-
removed_bit
)
*
sizeof
(
unsigned
char
));
//systematic bits 2Zc + 2*block_length
memcpy
(
&
channel_input
[
0
],
&
c
[
2
*
Zc
],
(
block_length
-
2
*
Zc
)
*
sizeof
(
unsigned
char
));
memcpy
(
&
channel_input
[
block_length
-
2
*
Zc
],
&
d
[
0
],
((
nrows
-
no_punctured_columns
)
*
Zc
-
removed_bit
)
*
sizeof
(
unsigned
char
));
//memcpy(channel_input,c,Kb*Zc*sizeof(unsigned char));
return
0
;
}
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