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lizhongxiao
OpenXG-RAN
Commits
9aba6d72
Commit
9aba6d72
authored
Feb 21, 2022
by
Laurent THOMAS
Committed by
Robert Schmidt
Feb 21, 2022
Browse files
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Plain Diff
fix bugs in polar encode, when len+crc_len>64
parent
e8278de1
Changes
3
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Inline
Side-by-side
Showing
3 changed files
with
54 additions
and
50 deletions
+54
-50
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
+26
-23
openair1/PHY/NR_UE_TRANSPORT/pucch_nr.c
openair1/PHY/NR_UE_TRANSPORT/pucch_nr.c
+1
-1
openair1/SIMULATION/NR_PHY/pucchsim.c
openair1/SIMULATION/NR_PHY/pucchsim.c
+27
-26
No files found.
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
View file @
9aba6d72
...
...
@@ -422,7 +422,6 @@ void polar_encoder_fast(uint64_t *A,
// AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
AssertFatal
(
polarParams
->
K
<
129
,
"K = %d > 128, is not supported yet
\n
"
,
polarParams
->
K
);
AssertFatal
(
polarParams
->
payloadBits
<
65
,
"payload bits = %d > 64, is not supported yet
\n
"
,
polarParams
->
payloadBits
);
uint64_t
B
[
4
]
=
{
0
,
0
,
0
,
0
},
Cprime
[
4
]
=
{
0
,
0
,
0
,
0
};
int
bitlen
=
polarParams
->
payloadBits
;
// append crc
AssertFatal
(
bitlen
<
129
,
"support for payloads <= 128 bits
\n
"
);
...
...
@@ -451,9 +450,12 @@ void polar_encoder_fast(uint64_t *A,
A32_flip
[
1
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
2
];
A32_flip
[
2
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
1
];
A32_flip
[
3
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
0
];
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc24c
(
A32_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
);
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc11
(
A32_flip
,
bitlen
)
>>
21
)))
&
0x7ff
);
else
if
(
polarParams
->
crcParityBits
==
6
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc6
(
A32_flip
,
bitlen
)
>>
26
)))
&
0x3f
);
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc24c
(
A32_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
);
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc11
(
A32_flip
,
bitlen
)
>>
21
)))
&
0x7ff
);
else
if
(
polarParams
->
crcParityBits
==
6
)
tcrc
=
(
uint64_t
)(((
crcmask
^
(
crc6
(
A32_flip
,
bitlen
)
>>
26
)))
&
0x3f
);
}
else
if
(
bitlen
<=
64
)
{
uint8_t
A64_flip
[
8
+
offset
];
if
(
ones_flag
)
{
...
...
@@ -470,8 +472,10 @@ void polar_encoder_fast(uint64_t *A,
A64_flip
[
5
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
2
];
A64_flip
[
6
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
1
];
A64_flip
[
7
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
0
];
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc24c
(
A64_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
;
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc11
(
A64_flip
,
bitlen
)
>>
21
)))
&
0x7ff
;
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc24c
(
A64_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
;
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc11
(
A64_flip
,
bitlen
)
>>
21
)))
&
0x7ff
;
}
else
if
(
bitlen
<=
128
)
{
uint8_t
A128_flip
[
16
+
offset
];
...
...
@@ -481,35 +485,34 @@ void polar_encoder_fast(uint64_t *A,
A128_flip
[
2
]
=
0xff
;
}
uint128_t
Aprime
=
(
uint128_t
)(((
uint128_t
)
*
A
)
<<
(
128
-
bitlen
));
A128_flip
[
0
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
15
];
A128_flip
[
1
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
14
];
A128_flip
[
2
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
13
];
A128_flip
[
3
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
12
];
A128_flip
[
4
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
11
];
A128_flip
[
5
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
10
];
A128_flip
[
6
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
9
];
A128_flip
[
7
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
8
];
A128_flip
[
8
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
7
];
A128_flip
[
9
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
6
];
A128_flip
[
10
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
5
];
A128_flip
[
11
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
4
];
A128_flip
[
12
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
3
];
A128_flip
[
13
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
2
];
A128_flip
[
14
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
1
];
A128_flip
[
15
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
0
];
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc24c
(
A128_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
;
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc11
(
A128_flip
,
bitlen
)
>>
21
)))
&
0x7ff
;
for
(
int
i
=
0
;
i
<
16
;
i
++
)
A128_flip
[
i
+
offset
]
=
((
uint8_t
*
)
&
Aprime
)[
15
-
i
];
if
(
polarParams
->
crcParityBits
==
24
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc24c
(
A128_flip
,
8
*
offset
+
bitlen
)
>>
8
)))
&
0xffffff
;
else
if
(
polarParams
->
crcParityBits
==
11
)
tcrc
=
(
uint64_t
)((
crcmask
^
(
crc11
(
A128_flip
,
bitlen
)
>>
21
)))
&
0x7ff
;
}
int
n
;
// this is number of quadwords in the bit string
int
quadwlen
=
(
polarParams
->
K
>>
6
);
if
((
polarParams
->
K
&
63
)
>
0
)
quadwlen
++
;
int
quadwlen
=
(
polarParams
->
K
+
63
)
/
64
;
// Create the B bit string as
// 0, 0, ..., 0, a'_0, a'_1, ..., a'_A-1, p_0, p_1, ..., p_{N_parity-1}
//??? b_{N'-1} b_{N'-2} ... b_{N'-A} b_{N'-A-1} ... b_{N'-A-Nparity} = a_{N-1} a_{N-2} ... a_{N-A} p_{N_parity-1} ... p_0
for
(
n
=
0
;
n
<
quadwlen
;
n
++
)
if
(
n
==
0
)
B
[
n
]
=
(
A
[
n
]
<<
polarParams
->
crcParityBits
)
|
tcrc
;
else
B
[
n
]
=
(
A
[
n
]
<<
polarParams
->
crcParityBits
)
|
(
A
[
n
-
1
]
>>
(
64
-
polarParams
->
crcParityBits
));
uint64_t
B
[
4
]
=
{
0
};
B
[
0
]
=
(
A
[
0
]
<<
polarParams
->
crcParityBits
)
|
tcrc
;
for
(
n
=
1
;
n
<
quadwlen
;
n
++
)
if
((
bitlen
+
63
)
/
64
>
n
)
B
[
n
]
=
(
A
[
n
]
<<
polarParams
->
crcParityBits
)
|
(
A
[
n
-
1
]
>>
(
64
-
polarParams
->
crcParityBits
));
else
B
[
n
]
=
(
A
[
n
-
1
]
>>
(
64
-
polarParams
->
crcParityBits
));
uint8_t
*
Bbyte
=
(
uint8_t
*
)
B
;
// for each byte of B, lookup in corresponding table for 64-bit word corresponding to that byte and its position
uint64_t
Cprime
[
4
]
=
{
0
};
if
(
polarParams
->
K
<
65
)
Cprime
[
0
]
=
polarParams
->
cprime_tab0
[
0
][
Bbyte
[
0
]]
|
polarParams
->
cprime_tab0
[
1
][
Bbyte
[
1
]]
|
...
...
openair1/PHY/NR_UE_TRANSPORT/pucch_nr.c
View file @
9aba6d72
...
...
@@ -850,7 +850,7 @@ static inline void nr_pucch2_3_4_scrambling(uint16_t M_bit,uint16_t rnti,uint16_
printf
(
"
\t\t
[nr_pucch2_3_4_scrambling] scrambling M_bit=%d bits
\n
"
,
M_bit
);
#endif
}
void
nr_uci_encoding
(
uint64_t
payload
,
static
void
nr_uci_encoding
(
uint64_t
payload
,
uint8_t
nr_bit
,
int
fmt
,
uint8_t
is_pi_over_2_bpsk_enabled
,
...
...
openair1/SIMULATION/NR_PHY/pucchsim.c
View file @
9aba6d72
...
...
@@ -552,19 +552,17 @@ int main(int argc, char **argv)
if
(
n_trials
==
1
)
printf
(
"txlev %d (%f dB), offset %d, sigma2 %f ( %f dB)
\n
"
,
txlev
,
10
*
log10
(
txlev
),
startingSymbolIndex
*
frame_parms
->
ofdm_symbol_size
,
sigma2
,
sigma2_dB
);
int
i0
;
double
txr
,
txi
,
rxr
,
rxi
,
nr
,
ni
;
int
**
rxdataF
=
gNB
->
common_vars
.
rxdataF
;
struct
complex16
**
rxdataF
=
(
struct
complex16
**
)
gNB
->
common_vars
.
rxdataF
;
for
(
int
symb
=
0
;
symb
<
gNB
->
frame_parms
.
symbols_per_slot
;
symb
++
)
{
if
(
symb
<
startingSymbolIndex
||
symb
>=
startingSymbolIndex
+
nrofSymbols
)
{
i0
=
symb
*
gNB
->
frame_parms
.
ofdm_symbol_size
;
i
nt
i
0
=
symb
*
gNB
->
frame_parms
.
ofdm_symbol_size
;
for
(
int
re
=
0
;
re
<
N_RB_DL
*
12
;
re
++
)
{
i
=
i0
+
((
gNB
->
frame_parms
.
first_carrier_offset
+
re
)
%
gNB
->
frame_parms
.
ofdm_symbol_size
);
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
{
nr
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
ni
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
((
int16_t
*
)
rxdataF
[
aarx
])[
i
<<
1
]
=
(
int16_t
)(
100
.
0
*
(
nr
)
/
sqrt
((
double
)
txlev
));
((
int16_t
*
)
rxdataF
[
aarx
])[
1
+
(
i
<<
1
)]
=
(
int16_t
)(
100
.
0
*
(
ni
)
/
sqrt
((
double
)
txlev
));
double
nr
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
double
ni
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
rxdataF
[
aarx
][
i
].
r
=
(
int16_t
)(
100
.
0
*
(
nr
)
/
sqrt
((
double
)
txlev
));
rxdataF
[
aarx
][
i
].
i
=
(
int16_t
)(
100
.
0
*
(
ni
)
/
sqrt
((
double
)
txlev
));
}
}
}
...
...
@@ -572,43 +570,45 @@ int main(int argc, char **argv)
random_channel
(
UE2gNB
,
0
);
freq_channel
(
UE2gNB
,
N_RB_DL
,
2
*
N_RB_DL
+
1
,
scs
/
1000
);
struct
complexd
phasor
;
double
rxr_tmp
;
for
(
int
symb
=
0
;
symb
<
nrofSymbols
;
symb
++
)
{
i0
=
(
startingSymbolIndex
+
symb
)
*
gNB
->
frame_parms
.
ofdm_symbol_size
;
i
nt
i
0
=
(
startingSymbolIndex
+
symb
)
*
gNB
->
frame_parms
.
ofdm_symbol_size
;
for
(
int
re
=
0
;
re
<
N_RB_DL
*
12
;
re
++
)
{
i
=
i0
+
((
gNB
->
frame_parms
.
first_carrier_offset
+
re
)
%
gNB
->
frame_parms
.
ofdm_symbol_size
);
struct
complexd
phasor
;
phasor
.
r
=
cos
(
2
*
M_PI
*
phase
*
re
);
phasor
.
i
=
sin
(
2
*
M_PI
*
phase
*
re
);
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
{
txr
=
(
double
)(((
int16_t
*
)
txdataF
[
0
])[(
i
<<
1
)]);
txi
=
(
double
)(((
int16_t
*
)
txdataF
[
0
])[
1
+
(
i
<<
1
)]);
rxr
=
txr
*
UE2gNB
->
chF
[
aarx
][
re
].
r
-
txi
*
UE2gNB
->
chF
[
aarx
][
re
].
i
;
rxi
=
txr
*
UE2gNB
->
chF
[
aarx
][
re
].
i
+
txi
*
UE2gNB
->
chF
[
aarx
][
re
].
r
;
rxr_tmp
=
rxr
*
phasor
.
r
-
rxi
*
phasor
.
i
;
double
txr
=
(
double
)(((
int16_t
*
)
txdataF
[
0
])[(
i
<<
1
)]);
double
txi
=
(
double
)(((
int16_t
*
)
txdataF
[
0
])[
1
+
(
i
<<
1
)]);
double
rxr
=
{
0
},
rxi
=
{
0
};
for
(
int
l
=
0
;
l
<
UE2gNB
->
channel_length
;
l
++
)
{
rxr
=
txr
*
UE2gNB
->
chF
[
aarx
][
l
].
r
-
txi
*
UE2gNB
->
chF
[
aarx
][
l
].
i
;
rxi
=
txr
*
UE2gNB
->
chF
[
aarx
][
l
].
i
+
txi
*
UE2gNB
->
chF
[
aarx
][
l
].
r
;
}
double
rxr_tmp
=
rxr
*
phasor
.
r
-
rxi
*
phasor
.
i
;
rxi
=
rxr
*
phasor
.
i
+
rxi
*
phasor
.
r
;
rxr
=
rxr_tmp
;
nr
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
ni
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
((
int16_t
*
)
rxdataF
[
aarx
])[
i
<<
1
]
=
(
int16_t
)(
100
.
0
*
(
rxr
+
nr
)
/
sqrt
((
double
)
txlev
));
((
int16_t
*
)
rxdataF
[
aarx
])[
1
+
(
i
<<
1
)]
=
(
int16_t
)(
100
.
0
*
(
rxi
+
ni
)
/
sqrt
((
double
)
txlev
));
double
nr
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
double
ni
=
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
);
rxdataF
[
aarx
][
i
].
r
=
(
int16_t
)(
100
.
0
*
(
rxr
+
nr
)
/
sqrt
((
double
)
txlev
));
rxdataF
[
aarx
][
i
].
i
=
(
int16_t
)(
100
.
0
*
(
rxi
+
ni
)
/
sqrt
((
double
)
txlev
));
if
(
n_trials
==
1
&&
abs
(
txr
)
>
0
)
printf
(
"symb %d, re %d , aarx %d : txr %f, txi %f, chr %f, chi %f, nr %f, ni %f, rxr %f, rxi %f => %d,%d
\n
"
,
symb
,
re
,
aarx
,
txr
,
txi
,
UE2gNB
->
chF
[
aarx
][
re
].
r
,
UE2gNB
->
chF
[
aarx
][
re
].
i
,
nr
,
ni
,
rxr
,
rxi
,
((
int16_t
*
)
rxdataF
[
aarx
])[
i
<<
1
],((
int16_t
*
)
rxdataF
[
aarx
])[
1
+
(
i
<<
1
)]
);
rxdataF
[
aarx
][
i
].
r
,
rxdataF
[
aarx
][
i
].
i
);
}
}
}
int
rxlev
=
0
;
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
rxlev
+=
signal_energy
(
&
rxdataF
[
aarx
][
startingSymbolIndex
*
frame_parms
->
ofdm_symbol_size
],
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
rxlev
+=
signal_energy
(
(
int32_t
*
)
&
rxdataF
[
aarx
][
startingSymbolIndex
*
frame_parms
->
ofdm_symbol_size
],
frame_parms
->
ofdm_symbol_size
);
int
rxlev_pucch
=
0
;
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
rxlev_pucch
+=
signal_energy
(
&
rxdataF
[
aarx
][
startingSymbolIndex
*
frame_parms
->
ofdm_symbol_size
],
for
(
int
aarx
=
0
;
aarx
<
n_rx
;
aarx
++
)
rxlev_pucch
+=
signal_energy
(
(
int32_t
*
)
&
rxdataF
[
aarx
][
startingSymbolIndex
*
frame_parms
->
ofdm_symbol_size
],
12
);
// set UL mask for pucch allocation
...
...
@@ -672,7 +672,7 @@ int main(int argc, char **argv)
free
(
uci_pdu
.
harq
);
}
else
if
(
format
==
1
)
{
nr_decode_pucch1
(
rxdataF
,
PUCCH_GroupHopping
,
hopping_id
,
nr_decode_pucch1
(
(
int32_t
**
)
rxdataF
,
PUCCH_GroupHopping
,
hopping_id
,
&
(
payload_received
),
frame_parms
,
amp
,
nr_slot_tx
,
m0
,
nrofSymbols
,
startingSymbolIndex
,
startingPRB
,
startingPRB_intraSlotHopping
,
timeDomainOCC
,
nr_bit
);
...
...
@@ -728,7 +728,8 @@ int main(int argc, char **argv)
break
;
}
}
if
(
gNB
->
uci_polarParams
)
nr_polar_delete
(
gNB
->
uci_polarParams
);
free_channel_desc_scm
(
UE2gNB
);
term_freq_channel
();
...
...
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