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wangwenhui
OpenXG-RAN
Commits
72d76c75
Commit
72d76c75
authored
Apr 01, 2020
by
Raymond Knopp
Browse files
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Plain Diff
dft-based pucch0 receiver
parent
0a2e0332
Changes
4
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Showing
4 changed files
with
98 additions
and
26 deletions
+98
-26
openair1/PHY/NR_TRANSPORT/pucch_rx.c
openair1/PHY/NR_TRANSPORT/pucch_rx.c
+70
-18
openair1/PHY/TOOLS/lte_dfts.c
openair1/PHY/TOOLS/lte_dfts.c
+4
-0
openair1/PHY/TOOLS/tools_defs.h
openair1/PHY/TOOLS/tools_defs.h
+2
-0
openair1/SIMULATION/NR_PHY/pucchsim.c
openair1/SIMULATION/NR_PHY/pucchsim.c
+22
-8
No files found.
openair1/PHY/NR_TRANSPORT/pucch_rx.c
View file @
72d76c75
...
...
@@ -17,6 +17,7 @@
#include "T.h"
#define DEBUG_NR_PUCCH_RX 1
void
nr_decode_pucch0
(
int32_t
**
rxdataF
,
NR_DL_FRAME_PARMS
*
frame_parms
,
...
...
@@ -79,28 +80,32 @@ void nr_decode_pucch0(int32_t **rxdataF,
nr_group_sequence_hopping
(
pucch_GroupHopping
,
pucch_pdu
->
hopping_id
,
n_hop
,
slot
,
&
u
,
&
v
);
// calculating u and v value
alpha
=
nr_cyclic_shift_hopping
(
pucch_pdu
->
hopping_id
,
pucch_pdu
->
initial_cyclic_shift
,
mcs
[
i
],
l
,
pucch_pdu
->
start_symbol_index
,
slot
);
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch0] sequence generation
\t
u=%d
\t
v=%d
\t
alpha=%lf
\t
(for symbol l=%d)
\n
"
,
u
,
v
,
alpha
,
l
);
#endif
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch0] sequence generation
\t
u=%d
\t
v=%d
\t
alpha=%lf
\t
(for symbol l=%d/%d,mcs %d)
\n
"
,
u
,
v
,
alpha
,
l
,
l
+
pucch_pdu
->
start_symbol_index
,
mcs
[
i
]
);
#endif
for
(
n
=
0
;
n
<
12
;
n
++
){
x_n_re
[
i
][(
12
*
l
)
+
n
]
=
(
int16_t
)((
int16_t
)(((((
int32_t
)(
round
(
32767
*
cos
(
alpha
*
n
)))
*
table_5_2_2_2_2_Re
[
u
][
n
])
>>
15
)
-
(((
int32_t
)(
round
(
32767
*
sin
(
alpha
*
n
)))
*
table_5_2_2_2_2_Im
[
u
][
n
])
>>
15
)))
>>
15
);
// Re part of base sequence shifted by alpha
-
(((
int32_t
)(
round
(
32767
*
sin
(
alpha
*
n
)))
*
table_5_2_2_2_2_Im
[
u
][
n
])
>>
15
))));
// Re part of base sequence shifted by alpha
x_n_im
[
i
][(
12
*
l
)
+
n
]
=
(
int16_t
)((
int16_t
)(((((
int32_t
)(
round
(
32767
*
cos
(
alpha
*
n
)))
*
table_5_2_2_2_2_Im
[
u
][
n
])
>>
15
)
+
(((
int32_t
)(
round
(
32767
*
sin
(
alpha
*
n
)))
*
table_5_2_2_2_2_Re
[
u
][
n
])
>>
15
)))
>>
15
);
// Im part of base sequence shifted by alpha
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch0] sequence generation
\t
u=%d
\t
v=%d
\t
alpha=%lf
\t
x_n(l=%d,n=%d)=(%d,%d)
\n
"
,
u
,
v
,
alpha
,
l
,
n
,
x_n_re
[(
12
*
l
)
+
n
],
x_n_im
[(
12
*
l
)
+
n
]);
#endif
+
(((
int32_t
)(
round
(
32767
*
sin
(
alpha
*
n
)))
*
table_5_2_2_2_2_Re
[
u
][
n
])
>>
15
))));
// Im part of base sequence shifted by alpha
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch0] sequence generation
\t
u=%d
\t
v=%d
\t
alpha=%lf
\t
x_n(l=%d,n=%d)=(%d,%d) %d,%d
\n
"
,
u
,
v
,
alpha
,
l
,
n
,
x_n_re
[
i
][(
12
*
l
)
+
n
],
x_n_im
[
i
][(
12
*
l
)
+
n
],
(
int32_t
)(
round
(
32767
*
cos
(
alpha
*
n
))),
(
int32_t
)(
round
(
32767
*
sin
(
alpha
*
n
))));
#endif
}
}
}
int16_t
r_re
[
24
],
r_im
[
24
];
/*
* Implementing TS 38.211 Subclause 6.3.2.3.2 Mapping to physical resources
*/
uint32_t
re_offset
=
0
;
uint8_t
l2
;
#ifdef OLD_IMPL
int16_t
r_re
[
24
],
r_im
[
24
];
for
(
l
=
0
;
l
<
pucch_pdu
->
nr_of_symbols
;
l
++
)
{
l2
=
l
+
pucch_pdu
->
start_symbol_index
;
...
...
@@ -144,7 +149,55 @@ void nr_decode_pucch0(int32_t **rxdataF,
max_corr
=
corr
[
i
];
}
}
#else
int16_t
*
x_re
=
x_n_re
[
0
],
*
x_im
=
x_n_im
[
0
];
int16_t
xr
[
32
]
__attribute__
((
aligned
(
32
)));
int16_t
xrt
[
32
]
__attribute__
((
aligned
(
32
)));
int32_t
xrtmag
=
0
;
int
maxpos
=
0
;
int
n2
=
0
;
uint8_t
index
=
0
;
memset
((
void
*
)
xr
,
0
,
32
*
sizeof
(
int16_t
));
for
(
l
=
0
;
l
<
pucch_pdu
->
nr_of_symbols
;
l
++
)
{
l2
=
l
+
pucch_pdu
->
start_symbol_index
;
re_offset
=
(
12
*
pucch_pdu
->
prb_start
)
+
frame_parms
->
first_carrier_offset
;
if
(
re_offset
>=
frame_parms
->
ofdm_symbol_size
)
re_offset
-=
frame_parms
->
ofdm_symbol_size
;
AssertFatal
(
re_offset
+
12
<
frame_parms
->
ofdm_symbol_size
,
"pucch straddles DC carrier, handle this!
\n
"
);
n2
=
0
;
int16_t
*
r
=
(
int16_t
*
)
&
rxdataF
[
0
][(
l2
*
frame_parms
->
ofdm_symbol_size
+
re_offset
)];
if
(
l
==
0
)
for
(
n
=
0
;
n
<
12
;
n
++
,
n2
+=
2
)
{
xr
[
n2
]
=
((
int32_t
)
x_re
[
n
]
*
r
[
n2
]
+
(
int32_t
)
x_im
[
n
]
*
r
[
n2
+
1
])
>>
15
;
xr
[
n2
+
1
]
=
((
int32_t
)
x_re
[
n
]
*
r
[
n2
+
1
]
-
(
int32_t
)
x_im
[
n
]
*
r
[
n2
])
>>
15
;
printf
(
"x (%d,%d), r (%d,%d), xr (%d,%d)
\n
"
,
x_re
[
n
],
x_im
[
n
],
r
[
n2
],
r
[
n2
+
1
],
xr
[
n2
],
xr
[
n2
+
1
]);
}
else
for
(
n
=
0
;
n
<
12
;
n
++
,
n2
+=
2
)
{
xr
[
n2
]
+=
((
int32_t
)
x_re
[
n
]
*
r
[
n2
]
+
(
int32_t
)
x_im
[
n
]
*
r
[
n2
+
1
])
>>
15
;
xr
[
n2
+
1
]
+=
((
int32_t
)
x_re
[
n
]
*
r
[
n2
+
1
]
-
(
int32_t
)
x_im
[
n
]
*
r
[
n2
])
>>
15
;
}
x_re
+=
12
;
x_im
+=
12
;
}
idft16f
(
xr
,
xrt
);
n2
=
0
;
int32_t
temp
;
for
(
n
=
0
;
n
<
16
;
n
++
,
n2
+=
2
)
{
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"PUCCH IDFT[%d] = (%d,%d)
\n
"
,
n
,
xrt
[
n2
],
xrt
[
n2
+
1
]);
#endif
if
((
temp
=
(
int32_t
)
xrt
[
n2
]
*
xrt
[
n2
]
+
(
int32_t
)
xrt
[
n2
+
1
]
*
xrt
[
n2
+
1
])
<
xrtmag
)
{
xrtmag
=
temp
;
maxpos
=
n
;
}
}
exit
(
-
1
);
#endif
// first bit of bitmap for sr presence and second bit for acknack presence
uci_pdu
->
pdu_bit_map
=
pucch_pdu
->
sr_flag
|
((
pucch_pdu
->
bit_len_harq
>
0
)
<<
1
);
uci_pdu
->
pucch_format
=
0
;
// format 0
...
...
@@ -281,7 +334,6 @@ void nr_decode_pucch1( int32_t **rxdataF,
re_offset
=
((
l
+
startingSymbolIndex
)
*
frame_parms
->
ofdm_symbol_size
)
+
(
12
*
startingPRB
)
+
frame_parms
->
first_carrier_offset
;
}
//txptr = &txdataF[0][re_offset];
for
(
int
n
=
0
;
n
<
12
;
n
++
)
{
if
((
n
==
6
)
&&
(
startingPRB
==
(
frame_parms
->
N_RB_DL
>>
1
))
&&
((
frame_parms
->
N_RB_DL
&
1
)
==
1
))
{
// if number RBs in bandwidth is odd and current PRB contains DC, we need to recalculate the offset when n=6 (for second half PRB)
...
...
@@ -294,7 +346,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch1] mapping PUCCH to RE
\t
amp=%d
\t
ofdm_symbol_size=%d
\t
N_RB_DL=%d
\t
first_carrier_offset=%d
\t
z_pucch[%d]=txptr(%d)=(x_n(l=%d,n=%d)=(%d,%d))
\n
"
,
amp
,
frame_parms
->
ofdm_symbol_size
,
frame_parms
->
N_RB_DL
,
frame_parms
->
first_carrier_offset
,
i
+
n
,
re_offset
,
l
,
n
,((
int16_t
*
)
&
txdataF
[
0
][
re_offset
])[
0
],((
int16_t
*
)
&
t
xdataF
[
0
][
re_offset
])[
1
]);
l
,
n
,((
int16_t
*
)
&
rxdataF
[
0
][
re_offset
])[
0
],((
int16_t
*
)
&
r
xdataF
[
0
][
re_offset
])[
1
]);
#endif
}
...
...
@@ -305,7 +357,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
#ifdef DEBUG_NR_PUCCH_RX
printf
(
"
\t
[nr_generate_pucch1] mapping DM-RS to RE
\t
amp=%d
\t
ofdm_symbol_size=%d
\t
N_RB_DL=%d
\t
first_carrier_offset=%d
\t
z_dm-rs[%d]=txptr(%d)=(x_n(l=%d,n=%d)=(%d,%d))
\n
"
,
amp
,
frame_parms
->
ofdm_symbol_size
,
frame_parms
->
N_RB_DL
,
frame_parms
->
first_carrier_offset
,
i
+
n
,
re_offset
,
l
,
n
,((
int16_t
*
)
&
txdataF
[
0
][
re_offset
])[
0
],((
int16_t
*
)
&
t
xdataF
[
0
][
re_offset
])[
1
]);
l
,
n
,((
int16_t
*
)
&
rxdataF
[
0
][
re_offset
])[
0
],((
int16_t
*
)
&
r
xdataF
[
0
][
re_offset
])[
1
]);
#endif
// printf("l=%d\ti=%d\tre_offset=%d\treceived dmrs re=%d\tim=%d\n",l,i,re_offset,z_dmrs_re_rx[i+n],z_dmrs_im_rx[i+n]);
}
...
...
@@ -416,7 +468,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
mprime
,
m
,
n
,
(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
,
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_re
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_im
[
n
],
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_im
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_re
[
n
],
z_re
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_im
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
z_re
_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_im_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
#endif
// multiplying with conjugate of low papr sequence
z_re_temp
=
(
int16_t
)(((((
int32_t
)(
r_u_v_alpha_delta_re
[
n
])
*
z_re_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
])
>>
15
)
...
...
@@ -450,7 +502,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
mprime
,
m
,
n
,
(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
,
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_re
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_im
[
n
],
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_im
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_re
[
n
],
z_dmrs_re
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_dmrs_im
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
z_dmrs_re
_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_dmrs_im_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
#endif
//finding channel coeffcients by dividing received dmrs with actual dmrs and storing them in z_dmrs_re_rx and z_dmrs_im_rx arrays
z_dmrs_re_temp
=
(
int16_t
)(((((
int32_t
)(
r_u_v_alpha_delta_dmrs_re
[
n
])
*
z_dmrs_re_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_DMRS_1
)
+
(
m
*
12
)
+
n
])
>>
15
)
...
...
@@ -501,7 +553,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
mprime
,
m
,
n
,
(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
,
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_re
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_im
[
n
],
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_im
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
y_n_re
[
n
],
z_re
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_im
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
z_re
_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_im_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
#endif
z_re_temp
=
(
int16_t
)(((((
int32_t
)(
r_u_v_alpha_delta_re
[
n
])
*
z_re_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
])
>>
15
)
+
(((
int32_t
)(
r_u_v_alpha_delta_im
[
n
])
*
z_im_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
])
>>
15
))
>>
1
);
...
...
@@ -529,7 +581,7 @@ void nr_decode_pucch1( int32_t **rxdataF,
mprime
,
m
,
n
,
(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
,
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_re
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_im
[
n
],
table_6_3_2_4_1_2_Wi_Re
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_im
[
n
],
table_6_3_2_4_1_2_Wi_Im
[
N_SF_mprime_PUCCH_1
][
w_index
][
m
],
r_u_v_alpha_delta_dmrs_re
[
n
],
z_dmrs_re
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_dmrs_im
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
z_dmrs_re
_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
],
z_dmrs_im_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_1
)
+
(
m
*
12
)
+
n
]);
#endif
//finding channel coeffcients by dividing received dmrs with actual dmrs and storing them in z_dmrs_re_rx and z_dmrs_im_rx arrays
z_dmrs_re_temp
=
(
int16_t
)(((((
int32_t
)(
r_u_v_alpha_delta_dmrs_re
[
n
])
*
z_dmrs_re_rx
[(
mprime
*
12
*
N_SF_mprime0_PUCCH_DMRS_1
)
+
(
m
*
12
)
+
n
])
>>
15
)
...
...
openair1/PHY/TOOLS/lte_dfts.c
View file @
72d76c75
...
...
@@ -2437,6 +2437,10 @@ static inline void idft16(int16_t *x,int16_t *y)
#endif
}
void
idft16f
(
int16_t
*
x
,
int16_t
*
y
)
{
idft16
(
x
,
y
);
}
#if defined(__x86_64__) || defined(__i386__)
#ifdef __AVX2__
// Does two 16-point IDFTS (x[0 .. 15] is 128 LSBs of input vector, x[16..31] is in 128 MSBs)
...
...
openair1/PHY/TOOLS/tools_defs.h
View file @
72d76c75
...
...
@@ -171,6 +171,8 @@ This function performs optimized fixed-point radix-2 FFT/IFFT.
);
*/
void
idft16f
(
int16_t
*
x
,
int16_t
*
y
);
void
idft1536
(
int16_t
*
sigF
,
int16_t
*
sig
,
int
scale
);
void
idft6144
(
int16_t
*
sigF
,
int16_t
*
sig
,
int
scale
);
...
...
openair1/SIMULATION/NR_PHY/pucchsim.c
View file @
72d76c75
...
...
@@ -454,8 +454,6 @@ int main(int argc, char **argv)
for
(
SNR
=
snr0
;
SNR
<=
snr1
;
SNR
=
SNR
+
1
){
ack_nack_errors
=
0
;
n_errors
=
0
;
sigma2_dB
=
20
*
log10
((
double
)
amp
/
32767
)
-
SNR
;
sigma2
=
pow
(
10
,
sigma2_dB
/
10
);
for
(
trial
=
0
;
trial
<
n_trials
;
trial
++
)
{
bzero
(
txdata
[
0
],
frame_length_complex_samples
*
sizeof
(
int
));
if
(
format
==
0
){
...
...
@@ -464,7 +462,11 @@ int main(int argc, char **argv)
else
{
nr_generate_pucch1
(
UE
,
txdata
,
frame_parms
,
UE
->
pucch_config_dedicated
,
actual_payload
,
amp
,
nr_tti_tx
,
m0
,
nrofSymbols
,
startingSymbolIndex
,
startingPRB
,
startingPRB_intraSlotHopping
,
0
,
nr_bit
);
}
for
(
i
=
0
;
i
<
frame_length_complex_samples
;
i
++
)
{
int
tx_lev
=
signal_energy
(
sigma2_dB
=
20
*
log10
((
double
)
amp
/
32767
)
-
SNR
;
sigma2
=
pow
(
10
,
sigma2_dB
/
10
);
for
(
i
=
(
nr_tti_tx
*
frame_parms
->
samples_per_slot
;
i
<
(
nr_tti_tx
+
1
)
*
frame_parms
->
samples_per_slot
;
i
++
)
{
r_re
[
aa
][
i
]
=
((
double
)(((
int16_t
*
)
txdata
[
0
])[(
i
<<
1
)])
/
32767
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
r_im
[
aa
][
i
]
=
((
double
)(((
int16_t
*
)
txdata
[
0
])[(
i
<<
1
)
+
1
])
/
32767
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
r_re
[
aa
][
i
]
=
r_re
[
0
][
i
]
/
(
sqrt
(
sigma2
/
2
)
+
1
);
...
...
@@ -481,13 +483,26 @@ int main(int argc, char **argv)
((
int16_t
*
)
txdata
[
aa
])[(
i
<<
1
)
+
1
]
=
(
int16_t
)
round
(
r_im
[
aa
][
i
]
*
32767
);
}
if
(
format
==
0
){
nr_decode_pucch0
(
txdata
,
PUCCH_GroupHopping
,
n_id
,
&
(
payload_received
),
frame_parms
,
amp
,
nr_tti_tx
,
m0
,
nrofSymbols
,
startingSymbolIndex
,
startingPRB
,
nr_bit
);
nfapi_nr_uci_pucch_pdu_format_0_1_t
uci_pdu
;
nfapi_nr_pucch_pdu_t
pucch_pdu
;
pucch_pdu
.
group_hop_flag
=
PUCCH_GroupHopping
&
1
;
pucch_pdu
.
sequence_hop_flag
=
(
PUCCH_GroupHopping
>>
1
)
&
1
;
pucch_pdu
.
bit_len_harq
=
nr_bit
;
pucch_pdu
.
sr_flag
=
0
;
pucch_pdu
.
nr_of_symbols
=
nrofSymbols
;
pucch_pdu
.
hopping_id
=
n_id
;
pucch_pdu
.
initial_cyclic_shift
=
0
;
pucch_pdu
.
start_symbol_index
=
startingSymbolIndex
;
pucch_pdu
.
prb_start
=
startingPRB
;
nr_decode_pucch0
(
txdata
,
frame_parms
,
nr_tti_tx
,
&
uci_pdu
,
&
pucch_pdu
);
if
(
nr_bit
==
1
)
ack_nack_errors
+=
(
((
actual_payload
^
payload_received
)
&
2
)
>>
1
);
ack_nack_errors
+=
(
actual_payload
^
uci_pdu
.
harq
->
harq_list
[
0
].
harq_value
);
else
ack_nack_errors
+=
(((
actual_payload
^
payload_received
)
&
2
)
>>
1
)
+
(((
actual_payload
^
payload_received
)
&
4
)
>>
2
);
ack_nack_errors
+=
((
actual_payload
^
uci_pdu
.
harq
->
harq_list
[
0
].
harq_value
)
+
((
actual_payload
>>
1
)
^
uci_pdu
.
harq
->
harq_list
[
1
].
harq_value
));
free
(
uci_pdu
.
harq
->
harq_list
);
}
else
{
nr_decode_pucch1
(
txdata
,
PUCCH_GroupHopping
,
n_id
,
&
(
payload_received
),
frame_parms
,
amp
,
nr_tti_tx
,
m0
,
nrofSymbols
,
startingSymbolIndex
,
startingPRB
,
startingPRB_intraSlotHopping
,
timeDomainOCC
,
nr_bit
);
if
(
nr_bit
==
1
)
ack_nack_errors
+=
((
actual_payload
^
payload_received
)
&
1
);
...
...
@@ -496,8 +511,7 @@ int main(int argc, char **argv)
}
n_errors
=
((
actual_payload
^
payload_received
)
&
1
)
+
(((
actual_payload
^
payload_received
)
&
2
)
>>
1
)
+
(((
actual_payload
^
payload_received
)
&
4
)
>>
2
)
+
n_errors
;
}
printf
(
"Decoded payload is %ld
\n
"
,
payload_received
);
printf
(
"SNR=%f, n_trials=%d, n_bit_errors=%d
\n
"
,
SNR
,
n_trials
,
n_errors
);
printf
(
"SNR=%f, n_trials=%d, n_bit_errors=%d
\n
"
,
SNR
,
n_trials
,
ack_nack_errors
);
if
((
float
)
ack_nack_errors
/
(
float
)(
nr_bit
*
n_trials
)
<=
target_error_rate
){
printf
(
"PUCCH test OK
\n
"
);
break
;
...
...
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