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wangjie
OpenXG-RAN
Commits
c2bf3aab
Commit
c2bf3aab
authored
Apr 30, 2021
by
sfn
Committed by
Thomas Schlichter
May 03, 2021
Browse files
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Plain Diff
Support high cqi with 2 layers for mimo precoding PDSCH
parent
5f6be27f
Changes
1
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Showing
1 changed file
with
75 additions
and
39 deletions
+75
-39
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_demodulation.c
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_demodulation.c
+75
-39
No files found.
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_demodulation.c
View file @
c2bf3aab
...
@@ -111,7 +111,7 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
...
@@ -111,7 +111,7 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
static
void
nr_dlsch_layer_demapping
(
int16_t
**
llr_cw
,
static
void
nr_dlsch_layer_demapping
(
int16_t
**
llr_cw
,
uint8_t
Nl
,
uint8_t
Nl
,
uint8_t
mod_order
,
uint8_t
mod_order
,
uint
16
_t
length
,
uint
32
_t
length
,
int32_t
codeword_TB0
,
int32_t
codeword_TB0
,
int32_t
codeword_TB1
,
int32_t
codeword_TB1
,
int16_t
**
llr_layers
);
int16_t
**
llr_layers
);
...
@@ -447,7 +447,7 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue,
...
@@ -447,7 +447,7 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue,
//LOG_I(PHY, "avgs Power per SC is %d\n", avgs);
//LOG_I(PHY, "avgs Power per SC is %d\n", avgs);
median
[(
aatx
*
frame_parms
->
nb_antennas_rx
)
+
aarx
]
=
avg
[(
aatx
*
frame_parms
->
nb_antennas_rx
)
+
aarx
];
median
[(
aatx
*
frame_parms
->
nb_antennas_rx
)
+
aarx
]
=
avg
[(
aatx
*
frame_parms
->
nb_antennas_rx
)
+
aarx
];
}
}
pdsch_vars
[
gNB_id
]
->
log2_maxh
=
(
log2_approx
(
avgs
)
/
2
)
+
3
;
pdsch_vars
[
gNB_id
]
->
log2_maxh
=
(
log2_approx
(
avgs
)
/
2
)
+
1
;
//LOG_I(PHY, "avgs Power per SC is %d lg2_maxh %d\n", avgs, pdsch_vars[gNB_id]->log2_maxh);
//LOG_I(PHY, "avgs Power per SC is %d lg2_maxh %d\n", avgs, pdsch_vars[gNB_id]->log2_maxh);
if
(
dlsch0_harq
->
mimo_mode
==
NR_DUALSTREAM
)
{
if
(
dlsch0_harq
->
mimo_mode
==
NR_DUALSTREAM
)
{
...
@@ -650,7 +650,7 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue,
...
@@ -650,7 +650,7 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue,
/* at last symbol in a slot calculate LLR's for whole slot */
/* at last symbol in a slot calculate LLR's for whole slot */
if
(
symbol
==
(
startSymbIdx
+
nbSymb
-
1
))
{
if
(
symbol
==
(
startSymbIdx
+
nbSymb
-
1
))
{
for
(
uint8_t
i
=
startSymbIdx
;
i
<
=
nbSymb
;
i
++
)
{
for
(
uint8_t
i
=
startSymbIdx
;
i
<
(
startSymbIdx
+
nbSymb
)
;
i
++
)
{
/* re evaluating the first symbol flag as LLR's are done in symbol loop */
/* re evaluating the first symbol flag as LLR's are done in symbol loop */
if
(
i
==
startSymbIdx
&&
i
<
3
)
{
if
(
i
==
startSymbIdx
&&
i
<
3
)
{
first_symbol_flag
=
1
;
first_symbol_flag
=
1
;
...
@@ -815,7 +815,6 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
...
@@ -815,7 +815,6 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
unsigned
char
aatx
,
aarx
,
atx
;
unsigned
char
aatx
,
aarx
,
atx
;
__m128i
*
dl_ch128
,
*
dl_ch128_2
,
*
dl_ch_mag128
,
*
dl_ch_mag128b
,
*
dl_ch_mag128r
,
*
rxdataF128
,
*
rxdataF_comp128
,
*
rho128
;
__m128i
*
dl_ch128
,
*
dl_ch128_2
,
*
dl_ch_mag128
,
*
dl_ch_mag128b
,
*
dl_ch_mag128r
,
*
rxdataF128
,
*
rxdataF_comp128
,
*
rho128
;
__m128i
mmtmpD0
,
mmtmpD1
,
mmtmpD2
,
mmtmpD3
,
QAM_amp128
,
QAM_amp128b
,
QAM_amp128r
;
__m128i
mmtmpD0
,
mmtmpD1
,
mmtmpD2
,
mmtmpD3
,
QAM_amp128
,
QAM_amp128b
,
QAM_amp128r
;
QAM_amp128b
=
_mm_setzero_si128
();
uint32_t
nb_rb_0
=
length
/
12
+
((
length
%
12
)
?
1
:
0
);
uint32_t
nb_rb_0
=
length
/
12
+
((
length
%
12
)
?
1
:
0
);
for
(
aatx
=
0
;
aatx
<
nb_aatx
;
aatx
++
)
{
for
(
aatx
=
0
;
aatx
<
nb_aatx
;
aatx
++
)
{
...
@@ -854,7 +853,7 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
...
@@ -854,7 +853,7 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
mmtmpD1
=
_mm_madd_epi16
(
dl_ch128
[
1
],
dl_ch128
[
1
]);
mmtmpD1
=
_mm_madd_epi16
(
dl_ch128
[
1
],
dl_ch128
[
1
]);
mmtmpD1
=
_mm_srai_epi32
(
mmtmpD1
,
output_shift
);
mmtmpD1
=
_mm_srai_epi32
(
mmtmpD1
,
output_shift
);
mmtmpD0
=
_mm_packs_epi32
(
mmtmpD0
,
mmtmpD1
);
mmtmpD0
=
_mm_packs_epi32
(
mmtmpD0
,
mmtmpD1
);
//|H[0]|^2 |H[1]|^2 |H[2]|^2 |H[3]|^2 |H[4]|^2 |H[5]|^2 |H[6]|^2 |H[7]|^2
// store channel magnitude here in a new field of dlsch
// store channel magnitude here in a new field of dlsch
...
@@ -863,6 +862,13 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
...
@@ -863,6 +862,13 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
dl_ch_mag128r
[
0
]
=
dl_ch_mag128
[
0
];
dl_ch_mag128r
[
0
]
=
dl_ch_mag128
[
0
];
dl_ch_mag128
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
0
],
QAM_amp128
);
dl_ch_mag128
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
0
],
QAM_amp128
);
dl_ch_mag128
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
0
],
1
);
dl_ch_mag128
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
0
],
1
);
dl_ch_mag128b
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
0
],
QAM_amp128b
);
dl_ch_mag128b
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
0
],
1
);
dl_ch_mag128r
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128r
[
0
],
QAM_amp128r
);
dl_ch_mag128r
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128r
[
0
],
1
);
//print_ints("Re(ch):",(int16_t*)&mmtmpD0);
//print_ints("Re(ch):",(int16_t*)&mmtmpD0);
//print_shorts("QAM_amp:",(int16_t*)&QAM_amp128);
//print_shorts("QAM_amp:",(int16_t*)&QAM_amp128);
//print_shorts("mag:",(int16_t*)&dl_ch_mag128[0]);
//print_shorts("mag:",(int16_t*)&dl_ch_mag128[0]);
...
@@ -872,6 +878,12 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
...
@@ -872,6 +878,12 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
dl_ch_mag128
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
1
],
QAM_amp128
);
dl_ch_mag128
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
1
],
QAM_amp128
);
dl_ch_mag128
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
1
],
1
);
dl_ch_mag128
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
1
],
1
);
dl_ch_mag128b
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
1
],
QAM_amp128b
);
dl_ch_mag128b
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
1
],
1
);
dl_ch_mag128r
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128r
[
1
],
QAM_amp128r
);
dl_ch_mag128r
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128r
[
1
],
1
);
mmtmpD0
=
_mm_madd_epi16
(
dl_ch128
[
2
],
dl_ch128
[
2
]);
//[H_I(0)^2+H_Q(0)^2 H_I(1)^2+H_Q(1)^2 H_I(2)^2+H_Q(2)^2 H_I(3)^2+H_Q(3)^2]
mmtmpD0
=
_mm_madd_epi16
(
dl_ch128
[
2
],
dl_ch128
[
2
]);
//[H_I(0)^2+H_Q(0)^2 H_I(1)^2+H_Q(1)^2 H_I(2)^2+H_Q(2)^2 H_I(3)^2+H_Q(3)^2]
mmtmpD0
=
_mm_srai_epi32
(
mmtmpD0
,
output_shift
);
mmtmpD0
=
_mm_srai_epi32
(
mmtmpD0
,
output_shift
);
mmtmpD1
=
_mm_packs_epi32
(
mmtmpD0
,
mmtmpD0
);
//[|H(0)|^2 |H(1)|^2 |H(2)|^2 |H(3)|^2 |H(0)|^2 |H(1)|^2 |H(2)|^2 |H(3)|^2]
mmtmpD1
=
_mm_packs_epi32
(
mmtmpD0
,
mmtmpD0
);
//[|H(0)|^2 |H(1)|^2 |H(2)|^2 |H(3)|^2 |H(0)|^2 |H(1)|^2 |H(2)|^2 |H(3)|^2]
...
@@ -883,19 +895,6 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
...
@@ -883,19 +895,6 @@ void nr_dlsch_channel_compensation(int **rxdataF_ext,
dl_ch_mag128
[
2
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
2
],
QAM_amp128
);
dl_ch_mag128
[
2
]
=
_mm_mulhi_epi16
(
dl_ch_mag128
[
2
],
QAM_amp128
);
dl_ch_mag128
[
2
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
2
],
1
);
dl_ch_mag128
[
2
]
=
_mm_slli_epi16
(
dl_ch_mag128
[
2
],
1
);
dl_ch_mag128b
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
0
],
QAM_amp128b
);
dl_ch_mag128b
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
0
],
1
);
dl_ch_mag128b
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
1
],
QAM_amp128b
);
dl_ch_mag128b
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
1
],
1
);
dl_ch_mag128r
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128r
[
0
],
QAM_amp128r
);
dl_ch_mag128r
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128r
[
0
],
1
);
dl_ch_mag128r
[
1
]
=
_mm_mulhi_epi16
(
dl_ch_mag128r
[
1
],
QAM_amp128r
);
dl_ch_mag128r
[
1
]
=
_mm_slli_epi16
(
dl_ch_mag128r
[
1
],
1
);
dl_ch_mag128b
[
2
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
2
],
QAM_amp128b
);
dl_ch_mag128b
[
2
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b
[
2
],
QAM_amp128b
);
dl_ch_mag128b
[
2
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
2
],
1
);
dl_ch_mag128b
[
2
]
=
_mm_slli_epi16
(
dl_ch_mag128b
[
2
],
1
);
...
@@ -2881,31 +2880,71 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
...
@@ -2881,31 +2880,71 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
*
*
*
*
**************************************************************************/
**************************************************************************/
__m128i
*
rxdataF_comp128_0
,
*
rxdataF_comp128_1
,
*
dl_ch_mag128_0
,
*
dl_ch_mag128b_0
,
*
dl_ch_mag128r_0
,
*
d
l_ch_mag128_1
,
*
dl_ch_mag128b_1
,
*
dl_ch_mag128r_1
,
*
determ_fin_128
;
__m128i
*
rxdataF_comp128_0
,
*
rxdataF_comp128_1
,
*
dl_ch_mag128_0
,
*
dl_ch_mag128b_0
,
*
dl_ch_mag128r_0
,
*
d
eterm_fin_128
;
//*dl_ch_mag128_1,*dl_ch_mag128b_1,*dl_ch_mag128r_1
__m128i
mmtmpD0
,
mmtmpD1
;
//mmtmpD2,mmtmpD3,
__m128i
mmtmpD0
,
mmtmpD1
,
mmtmpD2
,
mmtmpD3
;
__m128i
*
after_mf_a_128
,
*
after_mf_b_128
,
*
after_mf_c_128
,
*
after_mf_d_128
;
__m128i
*
after_mf_a_128
,
*
after_mf_b_128
,
*
after_mf_c_128
,
*
after_mf_d_128
;
__m128i
QAM_amp128
,
QAM_amp128b
,
QAM_amp128r
;
determ_fin_128
=
(
__m128i
*
)
&
determ_fin
[
0
];
determ_fin_128
=
(
__m128i
*
)
&
determ_fin
[
0
];
rxdataF_comp128_0
=
(
__m128i
*
)
&
rxdataF_comp
[
0
][
symbol
*
nb_rb
*
12
];
//aatx=0 @ aarx =0
rxdataF_comp128_0
=
(
__m128i
*
)
&
rxdataF_comp
[
0
][
symbol
*
nb_rb
*
12
];
//aatx=0 @ aarx =0
rxdataF_comp128_1
=
(
__m128i
*
)
&
rxdataF_comp
[
n_rx
][
symbol
*
nb_rb
*
12
];
//aatx=1 @ aarx =0
rxdataF_comp128_1
=
(
__m128i
*
)
&
rxdataF_comp
[
n_rx
][
symbol
*
nb_rb
*
12
];
//aatx=1 @ aarx =0
dl_ch_mag128_0
=
(
__m128i
*
)
&
dl_ch_mag
[
0
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128_1
=
(
__m128i
*
)
&
dl_ch_mag
[
n_rx
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128b_0
=
(
__m128i
*
)
&
dl_ch_magb
[
0
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128b_1
=
(
__m128i
*
)
&
dl_ch_magb
[
n_rx
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128r_0
=
(
__m128i
*
)
&
dl_ch_magr
[
0
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128r_1
=
(
__m128i
*
)
&
dl_ch_magr
[
n_rx
][
symbol
*
nb_rb
*
12
];
after_mf_a_128
=
(
__m128i
*
)
af_mf_00
;
after_mf_a_128
=
(
__m128i
*
)
af_mf_00
;
after_mf_b_128
=
(
__m128i
*
)
af_mf_01
;
after_mf_b_128
=
(
__m128i
*
)
af_mf_01
;
after_mf_c_128
=
(
__m128i
*
)
af_mf_10
;
after_mf_c_128
=
(
__m128i
*
)
af_mf_10
;
after_mf_d_128
=
(
__m128i
*
)
af_mf_11
;
after_mf_d_128
=
(
__m128i
*
)
af_mf_11
;
if
(
mod_order
>
2
)
{
if
(
mod_order
==
4
)
{
QAM_amp128
=
_mm_set1_epi16
(
QAM16_n1
);
//2/sqrt(10)
QAM_amp128b
=
_mm_setzero_si128
();
QAM_amp128r
=
_mm_setzero_si128
();
}
else
if
(
mod_order
==
6
)
{
QAM_amp128
=
_mm_set1_epi16
(
QAM64_n1
);
//4/sqrt{42}
QAM_amp128b
=
_mm_set1_epi16
(
QAM64_n2
);
//2/sqrt{42}
QAM_amp128r
=
_mm_setzero_si128
();
}
else
if
(
mod_order
==
8
)
{
QAM_amp128
=
_mm_set1_epi16
(
QAM256_n1
);
//8/sqrt{170}
QAM_amp128b
=
_mm_set1_epi16
(
QAM256_n2
);
//4/sqrt{170}
QAM_amp128r
=
_mm_set1_epi16
(
QAM256_n3
);
//2/sqrt{170}
}
dl_ch_mag128_0
=
(
__m128i
*
)
&
dl_ch_mag
[
0
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128b_0
=
(
__m128i
*
)
&
dl_ch_magb
[
0
][
symbol
*
nb_rb
*
12
];
dl_ch_mag128r_0
=
(
__m128i
*
)
&
dl_ch_magr
[
0
][
symbol
*
nb_rb
*
12
];
}
for
(
int
rb
=
0
;
rb
<
3
*
nb_rb_0
;
rb
++
)
{
for
(
int
rb
=
0
;
rb
<
3
*
nb_rb_0
;
rb
++
)
{
if
(
mod_order
>
2
)
{
if
(
mod_order
>
2
)
{
//The update value of dl_ch_mag128, dl_ch_mag128b, and dl_ch_mag128r shall go here
int
sum_det
=
0
;
//printf("\n Signal mag after ZF \n");
for
(
int
k
=
0
;
k
<
4
;
k
++
)
{
sum_det
+=
((((
int
*
)
&
determ_fin_128
[
0
])[
k
])
>>
2
);
//printf("det_%d = %d\n",k,sum_det);
}
mmtmpD2
=
_mm_slli_epi32
(
determ_fin_128
[
0
],
5
);
mmtmpD2
=
_mm_srai_epi32
(
mmtmpD2
,
log2_approx
(
sum_det
));
mmtmpD2
=
_mm_slli_epi32
(
mmtmpD2
,
5
);
mmtmpD3
=
_mm_unpacklo_epi32
(
mmtmpD2
,
mmtmpD2
);
mmtmpD2
=
_mm_unpackhi_epi32
(
mmtmpD2
,
mmtmpD2
);
mmtmpD2
=
_mm_packs_epi32
(
mmtmpD3
,
mmtmpD2
);
dl_ch_mag128_0
[
0
]
=
mmtmpD2
;
dl_ch_mag128b_0
[
0
]
=
mmtmpD2
;
dl_ch_mag128r_0
[
0
]
=
mmtmpD2
;
dl_ch_mag128_0
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128_0
[
0
],
QAM_amp128
);
dl_ch_mag128_0
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128_0
[
0
],
1
);
dl_ch_mag128b_0
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128b_0
[
0
],
QAM_amp128b
);
dl_ch_mag128b_0
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128b_0
[
0
],
1
);
dl_ch_mag128r_0
[
0
]
=
_mm_mulhi_epi16
(
dl_ch_mag128r_0
[
0
],
QAM_amp128r
);
dl_ch_mag128r_0
[
0
]
=
_mm_slli_epi16
(
dl_ch_mag128r_0
[
0
],
1
);
//print_shorts("mag layer 1:",(int16_t*)&dl_ch_mag128_0[0]);
//print_shorts("mag layer 1:",(int16_t*)&dl_ch_mag128_0[0]);
//print_shorts("mag layer 2:",(int16_t*)&dl_ch_mag128_1[0]);
//print_shorts("mag layer 2:",(int16_t*)&dl_ch_mag128_1[0]);
//print_shorts("magb layer 1:",(int16_t*)&dl_ch_mag128b_0[0]);
//print_shorts("magb layer 1:",(int16_t*)&dl_ch_mag128b_0[0]);
...
@@ -2941,9 +2980,6 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
...
@@ -2941,9 +2980,6 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
dl_ch_mag128_0
+=
1
;
dl_ch_mag128_0
+=
1
;
dl_ch_mag128b_0
+=
1
;
dl_ch_mag128b_0
+=
1
;
dl_ch_mag128r_0
+=
1
;
dl_ch_mag128r_0
+=
1
;
dl_ch_mag128_1
+=
1
;
dl_ch_mag128b_1
+=
1
;
dl_ch_mag128r_1
+=
1
;
rxdataF_comp128_0
+=
1
;
rxdataF_comp128_0
+=
1
;
rxdataF_comp128_1
+=
1
;
rxdataF_comp128_1
+=
1
;
after_mf_a_128
+=
1
;
after_mf_a_128
+=
1
;
...
@@ -2959,7 +2995,7 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
...
@@ -2959,7 +2995,7 @@ uint8_t nr_zero_forcing_rx_2layers(int **rxdataF_comp,
static
void
nr_dlsch_layer_demapping
(
int16_t
**
llr_cw
,
static
void
nr_dlsch_layer_demapping
(
int16_t
**
llr_cw
,
uint8_t
Nl
,
uint8_t
Nl
,
uint8_t
mod_order
,
uint8_t
mod_order
,
uint
16
_t
length
,
uint
32
_t
length
,
int32_t
codeword_TB0
,
int32_t
codeword_TB0
,
int32_t
codeword_TB1
,
int32_t
codeword_TB1
,
int16_t
**
llr_layers
)
{
int16_t
**
llr_layers
)
{
...
@@ -3097,7 +3133,7 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
...
@@ -3097,7 +3133,7 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
nr_dlsch_16qam_llr
(
frame_parms
,
nr_dlsch_16qam_llr
(
frame_parms
,
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
0
],
symbol
,
symbol
,
len
,
len
,
first_symbol_flag
,
first_symbol_flag
,
...
@@ -3119,8 +3155,8 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
...
@@ -3119,8 +3155,8 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
nr_dlsch_64qam_llr
(
frame_parms
,
nr_dlsch_64qam_llr
(
frame_parms
,
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
0
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magb0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magb0
[
0
],
symbol
,
symbol
,
len
,
len
,
first_symbol_flag
,
first_symbol_flag
,
...
@@ -3143,9 +3179,9 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
...
@@ -3143,9 +3179,9 @@ static int nr_dlsch_llr(NR_UE_PDSCH **pdsch_vars,
nr_dlsch_256qam_llr
(
frame_parms
,
nr_dlsch_256qam_llr
(
frame_parms
,
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
rxdataF_comp0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
layer_llr
[
l
]
+
llr_offset_symbol
,
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_mag0
[
0
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magb0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magb0
[
0
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magr0
[
l
*
frame_parms
->
nb_antennas_rx
],
pdsch_vars
[
gNB_id
]
->
dl_ch_magr0
[
0
],
symbol
,
symbol
,
len
,
len
,
first_symbol_flag
,
first_symbol_flag
,
...
...
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