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zzha zzha
OpenXG-RAN
Commits
02631868
Commit
02631868
authored
Oct 01, 2016
by
Rohit Gupta
Browse files
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Plain Diff
compilation fixes for mbmssim
parent
0c08aa61
Changes
1
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1 changed file
with
59 additions
and
59 deletions
+59
-59
openair1/SIMULATION/LTE_PHY/mbmssim.c
openair1/SIMULATION/LTE_PHY/mbmssim.c
+59
-59
No files found.
openair1/SIMULATION/LTE_PHY/mbmssim.c
View file @
02631868
...
@@ -59,7 +59,7 @@ PHY_VARS_UE *PHY_vars_UE;
...
@@ -59,7 +59,7 @@ PHY_VARS_UE *PHY_vars_UE;
DCI1E_5MHz_2A_M10PRB_TDD_t
DLSCH_alloc_pdu2_1E
[
2
];
DCI1E_5MHz_2A_M10PRB_TDD_t
DLSCH_alloc_pdu2_1E
[
2
];
#define UL_RB_ALLOC 0x1ff;
#define UL_RB_ALLOC 0x1ff;
#define CCCH_RB_ALLOC computeRIV(PHY_vars_eNB->
lte_
frame_parms.N_RB_UL,0,2)
#define CCCH_RB_ALLOC computeRIV(PHY_vars_eNB->frame_parms.N_RB_UL,0,2)
int
main
(
int
argc
,
char
**
argv
)
int
main
(
int
argc
,
char
**
argv
)
{
{
...
@@ -125,7 +125,7 @@ int main(int argc, char **argv)
...
@@ -125,7 +125,7 @@ int main(int argc, char **argv)
logInit
();
logInit
();
number_of_cards
=
1
;
number_of_cards
=
1
;
openair_daq_vars
.
rx_rf_mode
=
1
;
//
openair_daq_vars.rx_rf_mode = 1;
/*
/*
rxdataF = (int **)malloc16(2*sizeof(int*));
rxdataF = (int **)malloc16(2*sizeof(int*));
...
@@ -266,7 +266,7 @@ int main(int argc, char **argv)
...
@@ -266,7 +266,7 @@ int main(int argc, char **argv)
printf
(
"SNR0 %f, SNR1 %f
\n
"
,
snr0
,
snr1
);
printf
(
"SNR0 %f, SNR1 %f
\n
"
,
snr0
,
snr1
);
frame_parms
=
&
PHY_vars_eNB
->
lte_
frame_parms
;
frame_parms
=
&
PHY_vars_eNB
->
frame_parms
;
if
(
awgn_flag
==
0
)
if
(
awgn_flag
==
0
)
sprintf
(
fname
,
"embms_%d_%d.m"
,
mcs
,
N_RB_DL
);
sprintf
(
fname
,
"embms_%d_%d.m"
,
mcs
,
N_RB_DL
);
...
@@ -292,7 +292,7 @@ int main(int argc, char **argv)
...
@@ -292,7 +292,7 @@ int main(int argc, char **argv)
fflush
(
fd
);
fflush
(
fd
);
txdata
=
PHY_vars_eNB
->
lte_eNB_
common_vars
.
txdata
[
0
];
txdata
=
PHY_vars_eNB
->
common_vars
.
txdata
[
0
];
s_re
=
malloc
(
2
*
sizeof
(
double
*
));
s_re
=
malloc
(
2
*
sizeof
(
double
*
));
s_im
=
malloc
(
2
*
sizeof
(
double
*
));
s_im
=
malloc
(
2
*
sizeof
(
double
*
));
...
@@ -315,49 +315,49 @@ int main(int argc, char **argv)
...
@@ -315,49 +315,49 @@ int main(int argc, char **argv)
bzero
(
r_im
[
i
],
FRAME_LENGTH_COMPLEX_SAMPLES
*
sizeof
(
double
));
bzero
(
r_im
[
i
],
FRAME_LENGTH_COMPLEX_SAMPLES
*
sizeof
(
double
));
}
}
eNB2UE
=
new_channel_desc_scm
(
PHY_vars_eNB
->
lte_
frame_parms
.
nb_antennas_tx
,
eNB2UE
=
new_channel_desc_scm
(
PHY_vars_eNB
->
frame_parms
.
nb_antennas_tx
,
PHY_vars_UE
->
lte_
frame_parms
.
nb_antennas_rx
,
PHY_vars_UE
->
frame_parms
.
nb_antennas_rx
,
channel_model
,
channel_model
,
N_RB2sampling_rate
(
PHY_vars_eNB
->
lte_
frame_parms
.
N_RB_DL
),
N_RB2sampling_rate
(
PHY_vars_eNB
->
frame_parms
.
N_RB_DL
),
N_RB2channel_bandwidth
(
PHY_vars_eNB
->
lte_
frame_parms
.
N_RB_DL
),
N_RB2channel_bandwidth
(
PHY_vars_eNB
->
frame_parms
.
N_RB_DL
),
0
,
0
,
0
,
0
,
0
);
0
);
// Create transport channel structures for 2 transport blocks (MIMO)
// Create transport channel structures for 2 transport blocks (MIMO)
PHY_vars_eNB
->
dlsch_
eNB_
MCH
=
new_eNB_dlsch
(
1
,
8
,
Nsoft
,
N_RB_DL
,
0
);
PHY_vars_eNB
->
dlsch_MCH
=
new_eNB_dlsch
(
1
,
8
,
Nsoft
,
N_RB_DL
,
0
);
if
(
!
PHY_vars_eNB
->
dlsch_
eNB_
MCH
)
{
if
(
!
PHY_vars_eNB
->
dlsch_MCH
)
{
printf
(
"Can't get eNB dlsch structures
\n
"
);
printf
(
"Can't get eNB dlsch structures
\n
"
);
exit
(
-
1
);
exit
(
-
1
);
}
}
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
=
new_ue_dlsch
(
1
,
8
,
Nsoft
,
MAX_TURBO_ITERATIONS_MBSFN
,
N_RB_DL
,
0
);
PHY_vars_UE
->
dlsch_MCH
[
0
]
=
new_ue_dlsch
(
1
,
8
,
Nsoft
,
MAX_TURBO_ITERATIONS_MBSFN
,
N_RB_DL
,
0
);
PHY_vars_eNB
->
lte_
frame_parms
.
num_MBSFN_config
=
1
;
PHY_vars_eNB
->
frame_parms
.
num_MBSFN_config
=
1
;
PHY_vars_eNB
->
lte_
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationPeriod
=
0
;
PHY_vars_eNB
->
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationPeriod
=
0
;
PHY_vars_eNB
->
lte_
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationOffset
=
0
;
PHY_vars_eNB
->
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationOffset
=
0
;
PHY_vars_eNB
->
lte_
frame_parms
.
MBSFN_config
[
0
].
fourFrames_flag
=
0
;
PHY_vars_eNB
->
frame_parms
.
MBSFN_config
[
0
].
fourFrames_flag
=
0
;
PHY_vars_eNB
->
lte_
frame_parms
.
MBSFN_config
[
0
].
mbsfn_SubframeConfig
=
0xff
;
// activate all possible subframes
PHY_vars_eNB
->
frame_parms
.
MBSFN_config
[
0
].
mbsfn_SubframeConfig
=
0xff
;
// activate all possible subframes
PHY_vars_UE
->
lte_
frame_parms
.
num_MBSFN_config
=
1
;
PHY_vars_UE
->
frame_parms
.
num_MBSFN_config
=
1
;
PHY_vars_UE
->
lte_
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationPeriod
=
0
;
PHY_vars_UE
->
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationPeriod
=
0
;
PHY_vars_UE
->
lte_
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationOffset
=
0
;
PHY_vars_UE
->
frame_parms
.
MBSFN_config
[
0
].
radioframeAllocationOffset
=
0
;
PHY_vars_UE
->
lte_
frame_parms
.
MBSFN_config
[
0
].
fourFrames_flag
=
0
;
PHY_vars_UE
->
frame_parms
.
MBSFN_config
[
0
].
fourFrames_flag
=
0
;
PHY_vars_UE
->
lte_
frame_parms
.
MBSFN_config
[
0
].
mbsfn_SubframeConfig
=
0xff
;
// activate all possible subframes
PHY_vars_UE
->
frame_parms
.
MBSFN_config
[
0
].
mbsfn_SubframeConfig
=
0xff
;
// activate all possible subframes
fill_eNB_dlsch_MCH
(
PHY_vars_eNB
,
mcs
,
1
,
0
,
0
);
fill_eNB_dlsch_MCH
(
PHY_vars_eNB
,
mcs
,
1
,
0
,
0
);
fill_UE_dlsch_MCH
(
PHY_vars_UE
,
mcs
,
1
,
0
,
0
);
fill_UE_dlsch_MCH
(
PHY_vars_UE
,
mcs
,
1
,
0
,
0
);
if
(
is_pmch_subframe
(
0
,
subframe
,
&
PHY_vars_eNB
->
lte_
frame_parms
)
==
0
)
{
if
(
is_pmch_subframe
(
0
,
subframe
,
&
PHY_vars_eNB
->
frame_parms
)
==
0
)
{
printf
(
"eNB is not configured for MBSFN in subframe %d
\n
"
,
subframe
);
printf
(
"eNB is not configured for MBSFN in subframe %d
\n
"
,
subframe
);
exit
(
-
1
);
exit
(
-
1
);
}
else
if
(
is_pmch_subframe
(
0
,
subframe
,
&
PHY_vars_UE
->
lte_
frame_parms
)
==
0
)
{
}
else
if
(
is_pmch_subframe
(
0
,
subframe
,
&
PHY_vars_UE
->
frame_parms
)
==
0
)
{
printf
(
"UE is not configured for MBSFN in subframe %d
\n
"
,
subframe
);
printf
(
"UE is not configured for MBSFN in subframe %d
\n
"
,
subframe
);
exit
(
-
1
);
exit
(
-
1
);
}
}
input_buffer_length
=
PHY_vars_eNB
->
dlsch_
eNB_
MCH
->
harq_processes
[
0
]
->
TBS
/
8
;
input_buffer_length
=
PHY_vars_eNB
->
dlsch_MCH
->
harq_processes
[
0
]
->
TBS
/
8
;
input_buffer
=
(
unsigned
char
*
)
malloc
(
input_buffer_length
+
4
);
input_buffer
=
(
unsigned
char
*
)
malloc
(
input_buffer_length
+
4
);
memset
(
input_buffer
,
0
,
input_buffer_length
+
4
);
memset
(
input_buffer
,
0
,
input_buffer_length
+
4
);
...
@@ -392,12 +392,12 @@ int main(int argc, char **argv)
...
@@ -392,12 +392,12 @@ int main(int argc, char **argv)
//if (trials%100==0)
//if (trials%100==0)
//eNB2UE[0]->first_run = 1;
//eNB2UE[0]->first_run = 1;
eNB2UE
->
first_run
=
1
;
eNB2UE
->
first_run
=
1
;
memset
(
&
PHY_vars_eNB
->
lte_eNB_
common_vars
.
txdataF
[
0
][
0
][
0
],
0
,
FRAME_LENGTH_COMPLEX_SAMPLES_NO_PREFIX
*
sizeof
(
int32_t
));
memset
(
&
PHY_vars_eNB
->
common_vars
.
txdataF
[
0
][
0
][
0
],
0
,
FRAME_LENGTH_COMPLEX_SAMPLES_NO_PREFIX
*
sizeof
(
int32_t
));
generate_mch
(
PHY_vars_eNB
,
sched_subframe
,
input_buffer
,
0
);
generate_mch
(
PHY_vars_eNB
,
sched_subframe
,
input_buffer
,
0
);
PHY_ofdm_mod
(
PHY_vars_eNB
->
lte_eNB_
common_vars
.
txdataF
[
0
][
0
],
// input,
PHY_ofdm_mod
(
PHY_vars_eNB
->
common_vars
.
txdataF
[
0
][
0
],
// input,
txdata
[
0
],
// output
txdata
[
0
],
// output
frame_parms
->
ofdm_symbol_size
,
frame_parms
->
ofdm_symbol_size
,
LTE_NUMBER_OF_SUBFRAMES_PER_FRAME
*
nsymb
,
// number of symbols
LTE_NUMBER_OF_SUBFRAMES_PER_FRAME
*
nsymb
,
// number of symbols
...
@@ -405,33 +405,33 @@ int main(int argc, char **argv)
...
@@ -405,33 +405,33 @@ int main(int argc, char **argv)
CYCLIC_PREFIX
);
CYCLIC_PREFIX
);
if
(
n_frames
==
1
)
{
if
(
n_frames
==
1
)
{
write_output
(
"txsigF0.m"
,
"txsF0"
,
&
PHY_vars_eNB
->
lte_eNB_common_vars
.
txdataF
[
0
][
0
][
subframe
*
nsymb
*
PHY_vars_eNB
->
lte_
frame_parms
.
ofdm_symbol_size
],
write_output
(
"txsigF0.m"
,
"txsF0"
,
&
PHY_vars_eNB
->
common_vars
.
txdataF
[
0
][
0
][
subframe
*
nsymb
*
PHY_vars_eNB
->
frame_parms
.
ofdm_symbol_size
],
nsymb
*
PHY_vars_eNB
->
lte_
frame_parms
.
ofdm_symbol_size
,
1
,
1
);
nsymb
*
PHY_vars_eNB
->
frame_parms
.
ofdm_symbol_size
,
1
,
1
);
//if (PHY_vars_eNB->
lte_
frame_parms.nb_antennas_tx>1)
//if (PHY_vars_eNB->frame_parms.nb_antennas_tx>1)
//write_output("txsigF1.m","txsF1", &PHY_vars_eNB->
lte_eNB_common_vars.txdataF[eNB_id][1][subframe*nsymb*PHY_vars_eNB->lte_frame_parms.ofdm_symbol_size],nsymb*PHY_vars_eNB->lte_
frame_parms.ofdm_symbol_size,1,1);
//write_output("txsigF1.m","txsF1", &PHY_vars_eNB->
common_vars.txdataF[eNB_id][1][subframe*nsymb*PHY_vars_eNB->frame_parms.ofdm_symbol_size],nsymb*PHY_vars_eNB->
frame_parms.ofdm_symbol_size,1,1);
}
}
tx_lev
=
0
;
tx_lev
=
0
;
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
lte_
frame_parms
.
nb_antennas_tx
;
aa
++
)
{
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
frame_parms
.
nb_antennas_tx
;
aa
++
)
{
tx_lev
+=
signal_energy
(
&
PHY_vars_eNB
->
lte_eNB_
common_vars
.
txdata
[
eNB_id
][
aa
]
tx_lev
+=
signal_energy
(
&
PHY_vars_eNB
->
common_vars
.
txdata
[
eNB_id
][
aa
]
[
subframe
*
PHY_vars_eNB
->
lte_
frame_parms
.
samples_per_tti
],
[
subframe
*
PHY_vars_eNB
->
frame_parms
.
samples_per_tti
],
PHY_vars_eNB
->
lte_
frame_parms
.
samples_per_tti
);
PHY_vars_eNB
->
frame_parms
.
samples_per_tti
);
}
}
tx_lev_dB
=
(
unsigned
int
)
dB_fixed
(
tx_lev
);
tx_lev_dB
=
(
unsigned
int
)
dB_fixed
(
tx_lev
);
if
(
n_frames
==
1
)
{
if
(
n_frames
==
1
)
{
printf
(
"tx_lev = %d (%d dB)
\n
"
,
tx_lev
,
tx_lev_dB
);
printf
(
"tx_lev = %d (%d dB)
\n
"
,
tx_lev
,
tx_lev_dB
);
// write_output("txsig0.m","txs0", &PHY_vars_eNB->
lte_eNB_common_vars.txdata[0][0][subframe* PHY_vars_eNB->lte_
frame_parms.samples_per_tti],
// write_output("txsig0.m","txs0", &PHY_vars_eNB->
common_vars.txdata[0][0][subframe* PHY_vars_eNB->
frame_parms.samples_per_tti],
// PHY_vars_eNB->
lte_
frame_parms.samples_per_tti,1,1);
// PHY_vars_eNB->frame_parms.samples_per_tti,1,1);
}
}
for
(
i
=
0
;
i
<
2
*
frame_parms
->
samples_per_tti
;
i
++
)
{
for
(
i
=
0
;
i
<
2
*
frame_parms
->
samples_per_tti
;
i
++
)
{
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
lte_
frame_parms
.
nb_antennas_tx
;
aa
++
)
{
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
frame_parms
.
nb_antennas_tx
;
aa
++
)
{
s_re
[
aa
][
i
]
=
((
double
)(((
short
*
)
PHY_vars_eNB
->
lte_eNB_common_vars
.
txdata
[
0
][
aa
]))[(
2
*
subframe
*
PHY_vars_UE
->
lte_
frame_parms
.
samples_per_tti
)
+
(
i
<<
1
)]);
s_re
[
aa
][
i
]
=
((
double
)(((
short
*
)
PHY_vars_eNB
->
common_vars
.
txdata
[
0
][
aa
]))[(
2
*
subframe
*
PHY_vars_UE
->
frame_parms
.
samples_per_tti
)
+
(
i
<<
1
)]);
s_im
[
aa
][
i
]
=
((
double
)(((
short
*
)
PHY_vars_eNB
->
lte_eNB_common_vars
.
txdata
[
0
][
aa
]))[(
2
*
subframe
*
PHY_vars_UE
->
lte_
frame_parms
.
samples_per_tti
)
+
(
i
<<
1
)
+
1
]);
s_im
[
aa
][
i
]
=
((
double
)(((
short
*
)
PHY_vars_eNB
->
common_vars
.
txdata
[
0
][
aa
]))[(
2
*
subframe
*
PHY_vars_UE
->
frame_parms
.
samples_per_tti
)
+
(
i
<<
1
)
+
1
]);
}
}
}
}
...
@@ -440,18 +440,18 @@ int main(int argc, char **argv)
...
@@ -440,18 +440,18 @@ int main(int argc, char **argv)
2
*
frame_parms
->
samples_per_tti
,
hold_channel
);
2
*
frame_parms
->
samples_per_tti
,
hold_channel
);
//AWGN
//AWGN
sigma2_dB
=
10
*
log10
((
double
)
tx_lev
)
+
10
*
log10
((
double
)
PHY_vars_eNB
->
lte_
frame_parms
.
ofdm_symbol_size
/
(
NB_RB
*
12
))
-
SNR
;
sigma2_dB
=
10
*
log10
((
double
)
tx_lev
)
+
10
*
log10
((
double
)
PHY_vars_eNB
->
frame_parms
.
ofdm_symbol_size
/
(
NB_RB
*
12
))
-
SNR
;
sigma2
=
pow
(
10
,
sigma2_dB
/
10
);
sigma2
=
pow
(
10
,
sigma2_dB
/
10
);
if
(
n_frames
==
1
)
if
(
n_frames
==
1
)
printf
(
"Sigma2 %f (sigma2_dB %f)
\n
"
,
sigma2
,
sigma2_dB
);
printf
(
"Sigma2 %f (sigma2_dB %f)
\n
"
,
sigma2
,
sigma2_dB
);
for
(
i
=
0
;
i
<
2
*
frame_parms
->
samples_per_tti
;
i
++
)
{
for
(
i
=
0
;
i
<
2
*
frame_parms
->
samples_per_tti
;
i
++
)
{
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
lte_
frame_parms
.
nb_antennas_rx
;
aa
++
)
{
for
(
aa
=
0
;
aa
<
PHY_vars_eNB
->
frame_parms
.
nb_antennas_rx
;
aa
++
)
{
//printf("s_re[0][%d]=> %f , r_re[0][%d]=> %f\n",i,s_re[aa][i],i,r_re[aa][i]);
//printf("s_re[0][%d]=> %f , r_re[0][%d]=> %f\n",i,s_re[aa][i],i,r_re[aa][i]);
((
short
*
)
PHY_vars_UE
->
lte_ue_common_vars
.
rxdata
[
aa
])[(
2
*
subframe
*
PHY_vars_UE
->
lte_
frame_parms
.
samples_per_tti
)
+
2
*
i
]
=
((
short
*
)
PHY_vars_UE
->
lte_ue_common_vars
.
rxdata
[
aa
])[(
2
*
subframe
*
PHY_vars_UE
->
frame_parms
.
samples_per_tti
)
+
2
*
i
]
=
(
short
)
(
r_re
[
aa
][
i
]
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
(
short
)
(
r_re
[
aa
][
i
]
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
((
short
*
)
PHY_vars_UE
->
lte_ue_common_vars
.
rxdata
[
aa
])[(
2
*
subframe
*
PHY_vars_UE
->
lte_
frame_parms
.
samples_per_tti
)
+
2
*
i
+
1
]
=
((
short
*
)
PHY_vars_UE
->
lte_ue_common_vars
.
rxdata
[
aa
])[(
2
*
subframe
*
PHY_vars_UE
->
frame_parms
.
samples_per_tti
)
+
2
*
i
+
1
]
=
(
short
)
(
r_im
[
aa
][
i
]
+
(
iqim
*
r_re
[
aa
][
i
])
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
(
short
)
(
r_im
[
aa
][
i
]
+
(
iqim
*
r_re
[
aa
][
i
])
+
sqrt
(
sigma2
/
2
)
*
gaussdouble
(
0
.
0
,
1
.
0
));
}
}
}
}
...
@@ -466,7 +466,7 @@ int main(int argc, char **argv)
...
@@ -466,7 +466,7 @@ int main(int argc, char **argv)
if
(
PHY_vars_UE
->
perfect_ce
==
1
)
{
if
(
PHY_vars_UE
->
perfect_ce
==
1
)
{
// fill in perfect channel estimates
// fill in perfect channel estimates
freq_channel
(
eNB2UE
,
PHY_vars_UE
->
lte_frame_parms
.
N_RB_DL
,
12
*
PHY_vars_UE
->
lte_
frame_parms
.
N_RB_DL
+
1
);
freq_channel
(
eNB2UE
,
PHY_vars_UE
->
frame_parms
.
N_RB_DL
,
12
*
PHY_vars_UE
->
frame_parms
.
N_RB_DL
+
1
);
for
(
k
=
0
;
k
<
NUMBER_OF_eNB_MAX
;
k
++
)
{
for
(
k
=
0
;
k
<
NUMBER_OF_eNB_MAX
;
k
++
)
{
for
(
aa
=
0
;
aa
<
frame_parms
->
nb_antennas_tx
;
aa
++
)
{
for
(
aa
=
0
;
aa
<
frame_parms
->
nb_antennas_tx
;
aa
++
)
{
for
(
aarx
=
0
;
aarx
<
frame_parms
->
nb_antennas_rx
;
aarx
++
)
{
for
(
aarx
=
0
;
aarx
<
frame_parms
->
nb_antennas_rx
;
aarx
++
)
{
...
@@ -499,30 +499,30 @@ int main(int argc, char **argv)
...
@@ -499,30 +499,30 @@ int main(int argc, char **argv)
l2
);
l2
);
}
}
PHY_vars_UE
->
dlsch_
ue_MCH
[
0
]
->
harq_processes
[
0
]
->
G
=
get_G
(
&
PHY_vars_UE
->
lte_
frame_parms
,
PHY_vars_UE
->
dlsch_
MCH
[
0
]
->
harq_processes
[
0
]
->
G
=
get_G
(
&
PHY_vars_UE
->
frame_parms
,
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
nb_rb
,
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
nb_rb
,
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
rb_alloc_even
,
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
rb_alloc_even
,
get_Qm
(
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
mcs
),
get_Qm
(
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
mcs
),
1
,
2
,
1
,
2
,
PHY_vars_UE
->
frame_tx
,
subframe
);
PHY_vars_UE
->
frame_tx
,
subframe
);
PHY_vars_UE
->
dlsch_
ue_MCH
[
0
]
->
harq_processes
[
0
]
->
Qm
=
get_Qm
(
PHY_vars_UE
->
dlsch_ue
_MCH
[
0
]
->
harq_processes
[
0
]
->
mcs
);
PHY_vars_UE
->
dlsch_
MCH
[
0
]
->
harq_processes
[
0
]
->
Qm
=
get_Qm
(
PHY_vars_UE
->
dlsch
_MCH
[
0
]
->
harq_processes
[
0
]
->
mcs
);
dlsch_unscrambling
(
&
PHY_vars_UE
->
lte_frame_parms
,
1
,
PHY_vars_UE
->
dlsch_ue
_MCH
[
0
],
dlsch_unscrambling
(
&
PHY_vars_UE
->
frame_parms
,
1
,
PHY_vars_UE
->
dlsch
_MCH
[
0
],
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
G
,
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
G
,
PHY_vars_UE
->
lte_ue_pdsch_vars_MCH
[
0
]
->
llr
[
0
],
0
,
subframe
<<
1
);
PHY_vars_UE
->
lte_ue_pdsch_vars_MCH
[
0
]
->
llr
[
0
],
0
,
subframe
<<
1
);
ret
=
dlsch_decoding
(
PHY_vars_UE
,
ret
=
dlsch_decoding
(
PHY_vars_UE
,
PHY_vars_UE
->
lte_ue_pdsch_vars_MCH
[
0
]
->
llr
[
0
],
PHY_vars_UE
->
lte_ue_pdsch_vars_MCH
[
0
]
->
llr
[
0
],
&
PHY_vars_UE
->
lte_
frame_parms
,
&
PHY_vars_UE
->
frame_parms
,
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
],
PHY_vars_UE
->
dlsch_MCH
[
0
],
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
],
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
],
subframe
,
subframe
,
0
,
0
,
0
);
0
,
0
,
0
);
if
(
n_frames
==
1
)
if
(
n_frames
==
1
)
printf
(
"MCH decoding returns %d
\n
"
,
ret
);
printf
(
"MCH decoding returns %d
\n
"
,
ret
);
if
(
ret
==
(
1
+
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
max_turbo_iterations
))
if
(
ret
==
(
1
+
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
max_turbo_iterations
))
errs
[
0
]
++
;
errs
[
0
]
++
;
PHY_vars_UE
->
frame_tx
++
;
PHY_vars_UE
->
frame_tx
++
;
...
@@ -550,15 +550,15 @@ int main(int argc, char **argv)
...
@@ -550,15 +550,15 @@ int main(int argc, char **argv)
if
(
n_frames
==
1
)
{
if
(
n_frames
==
1
)
{
printf
(
"Dumping PMCH files ( G %d)
\n
"
,
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
G
);
printf
(
"Dumping PMCH files ( G %d)
\n
"
,
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
G
);
dump_mch
(
PHY_vars_UE
,
0
,
dump_mch
(
PHY_vars_UE
,
0
,
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]
->
harq_processes
[
0
]
->
G
,
PHY_vars_UE
->
dlsch_MCH
[
0
]
->
harq_processes
[
0
]
->
G
,
subframe
);
subframe
);
}
}
printf
(
"Freeing dlsch structures
\n
"
);
printf
(
"Freeing dlsch structures
\n
"
);
free_eNB_dlsch
(
PHY_vars_eNB
->
dlsch_
eNB_
MCH
);
free_eNB_dlsch
(
PHY_vars_eNB
->
dlsch_MCH
);
free_ue_dlsch
(
PHY_vars_UE
->
dlsch_
ue_
MCH
[
0
]);
free_ue_dlsch
(
PHY_vars_UE
->
dlsch_MCH
[
0
]);
fclose
(
fd
);
fclose
(
fd
);
...
...
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