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ZhouShuya
OpenXG-RAN
Commits
c6357850
Commit
c6357850
authored
Nov 28, 2018
by
Hongzhi Wang
Browse files
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Plain Diff
update dlsch decoding worker threads
parent
252a1fbc
Changes
5
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Showing
5 changed files
with
378 additions
and
1245 deletions
+378
-1245
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
+347
-1232
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
+18
-0
openair1/SCHED_NR_UE/defs.h
openair1/SCHED_NR_UE/defs.h
+4
-4
openair1/SCHED_NR_UE/phy_procedures_nr_ue.c
openair1/SCHED_NR_UE/phy_procedures_nr_ue.c
+6
-6
targets/RT/USER/nr-ue.c
targets/RT/USER/nr-ue.c
+3
-3
No files found.
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
View file @
c6357850
...
...
@@ -36,7 +36,7 @@
#include "PHY/CODING/coding_defs.h"
#include "PHY/NR_TRANSPORT/nr_transport_common_proto.h"
#include "PHY/NR_TRANSPORT/nr_dlsch.h"
//#include "SCHED/extern
.h"
#include "SCHED_NR_UE/defs
.h"
#include "SIMULATION/TOOLS/sim.h"
#include "targets/RT/USER/nr-uesoftmodem.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.h"
...
...
@@ -653,14 +653,15 @@ uint32_t nr_dlsch_decoding(PHY_VARS_NR_UE *phy_vars_ue,
}
#ifdef UE_DLSCH_PARALLELISATION
uint32_t
dlsch_decoding_mthread
(
PHY_VARS_NR_UE
*
phy_vars_ue
,
UE_rxtx_proc_t
*
proc
,
uint32_t
nr_
dlsch_decoding_mthread
(
PHY_VARS_NR_UE
*
phy_vars_ue
,
UE_
nr_
rxtx_proc_t
*
proc
,
int
eNB_id
,
short
*
dlsch_llr
,
NR_DL_FRAME_PARMS
*
frame_parms
,
NR_UE_DLSCH_t
*
dlsch
,
NR_DL_UE_HARQ_t
*
harq_process
,
uint32_t
frame
,
uint16_t
nb_symb_sch
,
uint8_t
nr_tti_rx
,
uint8_t
harq_pid
,
uint8_t
is_crnti
,
...
...
@@ -675,10 +676,8 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
uint32_t
A
,
E
;
uint32_t
G
;
uint32_t
ret
,
offset
;
uint16_t
iind
;
// uint8_t dummy_channel_output[(3*8*block_length)+12];
short
dummy_w
[
MAX_NUM_DLSCH_SEGMENTS
][
3
*
(
8448
+
64
)];
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
Kr_int
,
kb
,
kc
;
//short dummy_w[MAX_NUM_DLSCH_SEGMENTS][3*(8448+64)];
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
K_bytes_F
;
uint8_t
crc_type
;
//UE_rxtx_proc_t *proc = &phy_vars_ue->proc;
int32_t
no_iteration_ldpc
;
...
...
@@ -696,59 +695,22 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
int8_t
l
[
68
*
384
];
//__m128i l;
int16_t
inv_d
[
68
*
384
];
int16_t
*
p_invd
=&
inv_d
;
//int16_t *p_invd =&inv_d;
uint8_t
kb
,
kc
;
uint8_t
Ilbrm
=
0
;
uint32_t
Tbslbrm
=
950984
;
uint16_t
nb_rb
=
30
;
//to update
//uint16_t nb_symb_sch = 12;
uint8_t
nb_re_dmrs
=
6
;
uint16_t
length_dmrs
=
1
;
uint32_t
i
,
j
;
uint32_t
k
;
//
uint32_t k;
__m128i
*
pv
=
(
__m128i
*
)
&
z
;
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
#ifdef DEBUG_DLSCH_DECODING
uint16_t
i
;
#endif
//#ifdef __AVX2__
#if 0
int Kr_last,skipped_last=0;
uint8_t (*tc_2cw)(int16_t *y,
int16_t *y2,
uint8_t *,
uint8_t *,
uint16_t,
uint16_t,
uint16_t,
uint8_t,
uint8_t,
uint8_t,
time_stats_t *,
time_stats_t *,
time_stats_t *,
time_stats_t *,
time_stats_t *,
time_stats_t *,
time_stats_t *);
#endif
uint8_t
(
*
tc
)(
int16_t
*
y
,
uint8_t
*
,
uint16_t
,
uint16_t
,
uint16_t
,
uint8_t
,
uint8_t
,
uint8_t
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
);
if
(
!
dlsch_llr
)
{
printf
(
"dlsch_decoding.c: NULL dlsch_llr pointer
\n
"
);
return
(
dlsch
->
max_ldpc_iterations
);
...
...
@@ -764,7 +726,7 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
return
(
dlsch
->
max_ldpc_iterations
);
}
if
(
nr_tti_rx
>
(
10
*
frame_parms
->
ttis_per_subframe
-
1
))
{
/*
if (nr_tti_rx> (10*frame_parms->ttis_per_subframe-1)) {
printf("dlsch_decoding.c: Illegal subframe index %d\n",nr_tti_rx);
return(dlsch->max_ldpc_iterations);
}
...
...
@@ -772,24 +734,7 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
if (dlsch->harq_ack[nr_tti_rx].ack != 2) {
LOG_D(PHY, "[UE %d] DLSCH @ SF%d : ACK bit is %d instead of DTX even before PDSCH is decoded!\n",
phy_vars_ue->Mod_id, nr_tti_rx, dlsch->harq_ack[nr_tti_rx].ack);
}
if
(
llr8_flag
==
0
)
{
//#ifdef __AVX2__
#if 0
tc_2cw = phy_threegpplte_turbo_decoder16avx2;
#endif
tc
=
phy_threegpplte_turbo_decoder16
;
}
else
{
AssertFatal
(
harq_process
->
TBS
>=
256
,
"Mismatch flag nbRB=%d TBS=%d mcs=%d Qm=%d RIV=%d round=%d
\n
"
,
harq_process
->
nb_rb
,
harq_process
->
TBS
,
harq_process
->
mcs
,
harq_process
->
Qm
,
harq_process
->
rvidx
,
harq_process
->
round
);
tc
=
phy_threegpplte_turbo_decoder8
;
}
// nb_rb = dlsch->nb_rb;
}*/
/*
if (nb_rb > frame_parms->N_RB_DL) {
...
...
@@ -804,13 +749,16 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
}
*/
nb_rb
=
harq_process
->
nb_rb
;
harq_process
->
trials
[
harq_process
->
round
]
++
;
harq_process
->
TBS
=
nr_compute_tbs
(
harq_process
->
mcs
,
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Nl
);
A
=
harq_process
->
TBS
;
//2072 for QPSK 1/3
ret
=
dlsch
->
max_ldpc_iterations
;
harq_process
->
G
=
nr_get_G
(
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Qm
,
harq_process
->
Nl
);
G
=
harq_process
->
G
;
...
...
@@ -824,32 +772,18 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
if
(
harq_process
->
round
==
0
)
{
// This is a new packet, so compute quantities regarding segmentation
harq_process
->
B
=
A
+
24
;
#ifdef TD_DECODING
lte_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Cplus
,
&
harq_process
->
Cminus
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
F
);
// CLEAR LLR's HERE for first packet in process
#else
nr_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
K
,
&
harq_process
->
Z
,
&
harq_process
->
F
);
p_decParams
->
Z
=
harq_process
->
Z
;
#endif
}
kb
=
harq_process
->
K
plus
/
harq_process
->
Z
;
kb
=
harq_process
->
K
/
harq_process
->
Z
;
if
(
kb
==
22
){
p_decParams
->
BG
=
1
;
p_decParams
->
R
=
89
;
...
...
@@ -877,15 +811,7 @@ uint32_t dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
unsigned
char
bw_scaling
=
1
;
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
bw_scaling
=
16
;
break
;
case
25
:
bw_scaling
=
4
;
break
;
case
50
:
case
106
:
bw_scaling
=
2
;
break
;
...
...
@@ -1031,48 +957,15 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
for
(
r
=
0
;
r
<
Cby2
;
r
++
)
{
// Get Turbo interleaver parameters
#ifdef TD_DECODING
if
(
r
<
harq_process
->
Cminus
)
Kr
=
harq_process
->
Kminus
;
else
Kr
=
harq_process
->
Kplus
;
#else
Kr
=
harq_process
->
Kplus
;
#endif
Kr
=
harq_process
->
K
;
Kr_bytes
=
Kr
>>
3
;
K_bytes_F
=
Kr_bytes
-
(
harq_process
->
F
>>
3
);
//workaround for nr ldpc using lte interleaving
if
(
dlsch
->
harq_processes
[
harq_pid
]
->
C
>=
2
)
Kr_int
=
G
/
(
3
*
dlsch
->
harq_processes
[
harq_pid
]
->
C
);
else
Kr_int
=
Kr
;
if
(
Kr_bytes
<=
64
)
iind
=
(
Kr_bytes
-
5
);
else
if
(
Kr_bytes
<=
128
)
iind
=
59
+
((
Kr_bytes
-
64
)
>>
1
);
else
if
(
Kr_bytes
<=
256
)
iind
=
91
+
((
Kr_bytes
-
128
)
>>
2
);
else
if
(
Kr_bytes
<=
768
)
iind
=
123
+
((
Kr_bytes
-
256
)
>>
3
);
else
{
//printf("dlsch_decoding: Illegal codeword size %d!!!\n",Kr_bytes);
//return(dlsch->max_ldpc_iterations);
}
#ifdef DEBUG_DLSCH_DECODING
printf
(
"f1 %d, f2 %d, F %d
\n
"
,
f1f2mat_old
[
2
*
iind
],
f1f2mat_old
[
1
+
(
2
*
iind
)],(
r
==
0
)
?
harq_process
->
F
:
0
);
#endif
Tbslbrm
=
nr_compute_tbs
(
28
,
nb_rb
,
frame_parms
->
symbols_per_slot
,
0
,
0
,
harq_process
->
Nl
);
#if UE_TIMING_TRACE
start_meas
(
dlsch_rate_unmatching_stats
);
#endif
memset
(
&
dummy_w
[
r
][
0
],
0
,
3
*
(
8448
+
64
)
*
sizeof
(
short
));
harq_process
->
RTC
[
r
]
=
generate_dummy_w
(
Kr_int
,
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
(
r
==
0
)
?
harq_process
->
F
:
0
);
#ifdef DEBUG_DLSCH_DECODING
LOG_D
(
PHY
,
"HARQ_PID %d Rate Matching Segment %d (coded bits %d,unpunctured/repeated bits %d, TBS %d, mod_order %d, nb_rb %d, Nl %d, rv %d, round %d)...
\n
"
,
...
...
@@ -1089,15 +982,14 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
#ifdef DEBUG_DLSCH_DECODING
printf
(
" in decoding dlsch->harq_processes[harq_pid]->rvidx = %d
\n
"
,
dlsch
->
harq_processes
[
harq_pid
]
->
rvidx
);
#endif
if
(
lte_rate_matching_turbo_rx
(
harq_process
->
RTC
[
r
],
if
(
nr_rate_matching_ldpc_rx
(
Ilbrm
,
Tbslbrm
,
p_decParams
->
BG
,
p_decParams
->
Z
,
G
,
harq_process
->
w
[
r
],
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
dlsch_llr
+
r_offset
,
harq_process
->
C
,
dlsch
->
Nsoft
,
dlsch
->
Mdlharq
,
dlsch
->
Kmimo
,
harq_process
->
rvidx
,
(
harq_process
->
round
==
0
)
?
1
:
0
,
harq_process
->
Qm
,
...
...
@@ -1126,24 +1018,24 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
#if UE_TIMING_TRACE
start_meas
(
dlsch_deinterleaving_stats
);
#endif
sub_block_deinterleaving_turbo
(
4
+
Kr
,
&
harq_process
->
d
[
r
][
96
]
,
nr_deinterleaving_ldpc
(
E
,
harq_process
->
Qm
,
harq_process
->
d
[
r
],
harq_process
->
w
[
r
]);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_deinterleaving_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
/*
if
(
r
==
0
)
{
write_output
(
"decoder_llr.m"
,
"decllr"
,
dlsch_llr
,
G
,
1
,
0
);
write_output
(
"decoder_in.m"
,
"dec"
,
&
harq_process
->
d
[
0
][
96
],(
3
*
8
*
Kr_bytes
)
+
12
,
1
,
0
);
}
printf
(
"decoder input(segment %d) :"
,
r
);
int i; for (i=0;i<(3*8*Kr_bytes)+12
;i++)
printf("%d : %d\n",i,harq_process->d[r][
96+
i]);
printf("\n");
*/
for
(
int
i
=
0
;
i
<
(
3
*
8
*
Kr_bytes
)
;
i
++
)
printf
(
"%d : %d
\n
"
,
i
,
harq_process
->
d
[
r
][
i
]);
printf
(
"
\n
"
);
#endif
...
...
@@ -1156,17 +1048,8 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
else
crc_type
=
CRC24_B
;
/*
printf("decoder input(segment %d)\n",r);
for (i=0;i<(3*8*Kr_bytes)+12;i++)
if ((harq_process->d[r][96+i]>7) ||
(harq_process->d[r][96+i] < -8))
printf("%d : %d\n",i,harq_process->d[r][96+i]);
printf("\n");
*/
//#ifndef __AVX2__
#if 1
if
(
err_flag
==
0
)
{
/*
LOG_I(PHY, "turbo algo Kr=%d cb_cnt=%d C=%d nbRB=%d crc_type %d TBSInput=%d TBSHarq=%d TBSplus24=%d mcs=%d Qm=%d RIV=%d round=%d maxIter %d\n",
...
...
@@ -1181,58 +1064,46 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
LOG_D
(
PHY
,
"mthread AbsSubframe %d.%d Start turbo segment %d/%d
\n
"
,
frame
%
1024
,
nr_tti_rx
,
r
,
harq_process
->
C
-
1
);
#ifdef TD_DECODING
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#else
memset
(
pv
,
0
,
2
*
p_decParams
->
Z
*
sizeof
(
int16_t
));
//memset(pl,0,2*p_decParams->Z*sizeof(int8_t));
memset
((
pv
+
K_bytes_F
),
127
,
harq_process
->
F
*
sizeof
(
int16_t
));
//if (A < 1000){
for
(
i
=
2
*
p_decParams
->
Z
/
8
,
j
=
0
;
i
<
(
68
*
p_decParams
->
Z
/
8
+
1
);
i
++
,
j
++
)
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
+
((
2
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
}
/*}
else{
for (i=2*p_decParams->Z/8, j = 0; i < (68*p_decParams->Z/8+1); i++, j++)
for
(
i
=
Kr_bytes
+
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
Kr_bytes
;
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv[i]= _mm_loadu_si128((__m128i*)&harq_process->d[r][96+8*j]
);
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
])
);
}
}*/
for
(
i
=
0
,
j
=
0
;
j
<
(
68
*
p_decParams
->
Z
/
16
);
i
+=
2
,
j
++
)
for
(
i
=
0
,
j
=
0
;
j
<
(
(
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
//printf("mm packs i %d j %d\n", i, j);
//print128_num(pv[i]);
//print128_num(pv[i+1]);
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
//print128_num2bytes(pl[j]);
}
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
&
pl
[
0
],
(
int8_t
*
)
&
pl
[
0
],
llrProcBuf
,
p_procTime
);
//if (no_iteration_ldpc > 2)
//printf("Error number of iteration LPDC %d\n", no_iteration_ldpc);
nb_total_decod
++
;
if
(
no_iteration_ldpc
>
10
){
nb_error_decod
++
;
ret
=
1
+
dlsch
->
max_ldpc_iterations
;
}
else
{
ret
=
2
;
}
//if (!nb_total_decod%10000){
printf
(
"Error number of iteration LPDC %d %ld/%ld
\n
"
,
no_iteration_ldpc
,
nb_error_decod
,
nb_total_decod
);
fflush
(
stdout
);
//}
//else
//printf("OK number of iteration LPDC %d\n", no_iteration_ldpc);
...
...
@@ -1256,7 +1127,6 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
}
printf(" \n");*/
#endif
//printf("output channel decoder %d %d %d %d %d \n", harq_process->c[r][0], harq_process->c[r][1], harq_process->c[r][2],harq_process->c[r][3], harq_process->c[r][4]);
//printf("output decoder %d %d %d %d %d \n", harq_process->c[r][0], harq_process->c[r][1], harq_process->c[r][2],harq_process->c[r][3], harq_process->c[r][4]);
...
...
@@ -1266,153 +1136,6 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
#else
if
((
harq_process
->
C
==
1
)
||
((
r
==
harq_process
->
C
-
1
)
&&
(
skipped_last
==
0
)))
{
// last segment with odd number of segments
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
// printf("single decode, exit\n");
// exit(-1);
}
else
{
// we can merge code segments
if
((
skipped_last
==
0
)
&&
(
r
<
harq_process
->
C
-
1
))
{
skipped_last
=
1
;
Kr_last
=
Kr
;
}
else
{
skipped_last
=
0
;
if
(
Kr_last
==
Kr
)
{
// decode 2 code segments with AVX2 version
#ifdef DEBUG_DLSCH_DECODING
printf
(
"single decoding segment %d (%p)
\n
"
,
r
-
1
,
&
harq_process
->
d
[
r
-
1
][
96
]);
#endif
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
printf
(
"double decoding segments %d,%d (%p,%p)
\n
"
,
r
-
1
,
r
,
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
]);
#endif
ret
=
tc_2cw
(
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
-
1
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
/*
ret = tc
(&harq_process->d[r-1][96],
harq_process->c[r-1],
Kr_last,
f1f2mat_old[iind*2],
f1f2mat_old[(iind*2)+1],
dlsch->max_ldpc_iterations,
crc_type,
(r==0) ? harq_process->F : 0,
&phy_vars_ue->dlsch_tc_init_stats,
&phy_vars_ue->dlsch_tc_alpha_stats,
&phy_vars_ue->dlsch_tc_beta_stats,
&phy_vars_ue->dlsch_tc_gamma_stats,
&phy_vars_ue->dlsch_tc_ext_stats,
&phy_vars_ue->dlsch_tc_intl1_stats,
&phy_vars_ue->dlsch_tc_intl2_stats); //(is_crnti==0)?harq_pid:harq_pid+1);
exit(-1);*/
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
else
{
// Kr_last != Kr
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
-
1
][
96
],
harq_process
->
c
[
r
-
1
],
Kr_last
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
/*printf("Segmentation: C %d r %d, dlsch_rate_unmatching_stats %5.3f dlsch_deinterleaving_stats %5.3f dlsch_turbo_decoding_stats %5.3f \n",
harq_process->C,
r,
dlsch_rate_unmatching_stats->p_time/(cpuf*1000.0),
dlsch_deinterleaving_stats->p_time/(cpuf*1000.0),
dlsch_turbo_decoding_stats->p_time/(cpuf*1000.0));*/
#endif
}
}
}
#endif
if
((
err_flag
==
0
)
&&
(
ret
>=
(
1
+
dlsch
->
max_ldpc_iterations
)))
{
// a Code segment is in error so break;
...
...
@@ -1434,9 +1157,9 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
LOG_I
(
PHY
,
"[UE %d] DLSCH: Setting NAK for SFN/SF %d/%d (pid %d, status %d, round %d, TBS %d, mcs %d) Kr %d r %d harq_process->round %d
\n
"
,
phy_vars_ue
->
Mod_id
,
frame
,
nr_tti_rx
,
harq_pid
,
harq_process
->
status
,
harq_process
->
round
,
harq_process
->
TBS
,
harq_process
->
mcs
,
Kr
,
r
,
harq_process
->
round
);
#endif
dlsch
->
harq_ack
[
nr_tti_rx
]
.
ack
=
0
;
dlsch
->
harq_ack
[
nr_tti_rx
]
.
harq_id
=
harq_pid
;
dlsch
->
harq_ack
[
nr_tti_rx
]
.
send_harq_status
=
1
;
harq_process
->
harq_ack
.
ack
=
0
;
harq_process
->
harq_ack
.
harq_id
=
harq_pid
;
harq_process
->
harq_ack
.
send_harq_status
=
1
;
harq_process
->
errors
[
harq_process
->
round
]
++
;
harq_process
->
round
++
;
...
...
@@ -1461,9 +1184,9 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
harq_process
->
status
=
SCH_IDLE
;
harq_process
->
round
=
0
;
dlsch
->
harq_ack
[
nr_tti_rx
]
.
ack
=
1
;
dlsch
->
harq_ack
[
nr_tti_rx
]
.
harq_id
=
harq_pid
;
dlsch
->
harq_ack
[
nr_tti_rx
]
.
send_harq_status
=
1
;
harq_process
->
harq_ack
.
ack
=
1
;
harq_process
->
harq_ack
.
harq_id
=
harq_pid
;
harq_process
->
harq_ack
.
send_harq_status
=
1
;
//LOG_I(PHY,"[UE %d] DLSCH: Setting ACK for SFN/SF %d/%d (pid %d, status %d, round %d, TBS %d, mcs %d)\n",
// phy_vars_ue->Mod_id, frame, subframe, harq_pid, harq_process->status, harq_process->round,harq_process->TBS,harq_process->mcs);
...
...
@@ -1502,31 +1225,24 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
proc
->
decoder_main_available
=
0
;
for
(
r
=
0
;
r
<
harq_process
->
C
;
r
++
)
{
if
(
r
<
harq_process
->
Cminus
)
Kr
=
harq_process
->
Kminus
;
else
Kr
=
harq_process
->
Kplus
;
Kr
=
harq_process
->
K
;
//to check if same K in all segments
Kr_bytes
=
Kr
>>
3
;
// printf("Segment %d : Kr= %d bytes\n",r,Kr_bytes);
if
(
r
==
0
)
{
memcpy
(
harq_process
->
b
,
&
harq_process
->
c
[
0
][(
harq_process
->
F
>>
3
)],
Kr_bytes
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
offset
=
Kr_bytes
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
);
// printf("copied %d bytes to b sequence (harq_pid %d)\n",
// Kr_bytes - (harq_process->F>>3),harq_pid);
// printf("b[0] = %x,c[%d] = %x\n",
// harq_process->b[0],
// harq_process->F>>3,
// harq_process->c[0][(harq_process->F>>3)]);
}
else
{
memcpy
(
harq_process
->
b
+
offset
,
harq_process
->
c
[
r
],
Kr_bytes
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
offset
+=
(
Kr_bytes
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
}
Kr_bytes
-
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
offset
+=
(
Kr_bytes
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
#ifdef DEBUG_DLSCH_DECODING
printf
(
"Segment %d : Kr= %d bytes
\n
"
,
r
,
Kr_bytes
);
printf
(
"copied %d bytes to b sequence (harq_pid %d)
\n
"
,
(
Kr_bytes
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
)),
harq_pid
);
printf
(
"b[0] = %x,c[%d] = %x
\n
"
,
harq_process
->
b
[
offset
],
harq_process
->
F
>>
3
,
harq_process
->
c
[
r
]);
#endif
}
dlsch
->
last_iteration_cnt
=
ret
;
...
...
@@ -1544,13 +1260,13 @@ if (harq_process->C>1) { // wakeup worker if more than 1 segment
#ifdef UE_DLSCH_PARALLELISATION
#define FIFO_PRIORITY 39
uint32_t
dlsch_decoding_2thread0
(
void
*
arg
)
void
*
nr_
dlsch_decoding_2thread0
(
void
*
arg
)
{
static
__thread
int
UE_dlsch_td_retval
;
struct
rx_
tx_thread_data
*
rtd
=
arg
;
UE_rxtx_proc_t
*
proc
=
rtd
->
proc
;
struct
nr_rx
tx_thread_data
*
rtd
=
arg
;
UE_
nr_
rxtx_proc_t
*
proc
=
rtd
->
proc
;
PHY_VARS_NR_UE
*
phy_vars_ue
=
rtd
->
UE
;
NR_DL_FRAME_PARMS
*
frame_parms
=
&
phy_vars_ue
->
frame_parms
;
int
llr8_flag1
;
int32_t
no_iteration_ldpc
;
t_nrLDPC_dec_params
decParams
;
...
...
@@ -1562,6 +1278,13 @@ uint32_t dlsch_decoding_2thread0(void *arg)
//__m128i l;
int16_t
inv_d
[
68
*
384
];
int16_t
*
p_invd
=&
inv_d
;
uint8_t
kb
,
kc
;
uint8_t
Ilbrm
=
0
;
uint32_t
Tbslbrm
=
950984
;
uint16_t
nb_rb
=
30
;
//to update
uint16_t
nb_symb_sch
=
12
;
uint8_t
nb_re_dmrs
=
6
;
uint16_t
length_dmrs
=
1
;
uint32_t
i
,
j
;
uint32_t
k
;
...
...
@@ -1596,48 +1319,13 @@ uint32_t dlsch_decoding_2thread0(void *arg)
uint32_t
A
,
E
;
uint32_t
G
;
uint32_t
ret
,
offset
;
uint16_t
iind
;
// uint8_t dummy_channel_output[(3*8*block_length)+12];
short
dummy_w
[
MAX_NUM_DLSCH_SEGMENTS
][
3
*
(
8448
+
64
)];
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
Kr_int
;
// short dummy_w[MAX_NUM_DLSCH_SEGMENTS][3*(8448+64)];
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
K_bytes_F
;
uint8_t
crc_type
;
uint8_t
C
;
uint8_t
C
,
Cprime
;
uint8_t
Qm
;
uint8_t
Nl
;
uint32_t
Er
,
Gp
,
GpmodC
;
#ifdef DEBUG_DLSCH_DECODING
uint16_t
i
;
#endif
//#ifdef __AVX2__
uint8_t
(
*
tc
)(
int16_t
*
y
,
uint8_t
*
,
uint16_t
,
uint16_t
,
uint16_t
,
uint8_t
,
uint8_t
,
uint8_t
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
);
if
(
llr8_flag1
==
0
)
{
//#ifdef __AVX2__
#if 0
tc_2cw = phy_threegpplte_turbo_decoder16avx2;
#endif
tc
=
phy_threegpplte_turbo_decoder16
;
}
else
{
//AssertFatal (harq_process->TBS >= 256 , "Mismatch flag nbRB=%d TBS=%d mcs=%d Qm=%d RIV=%d round=%d \n",
// harq_process->nb_rb, harq_process->TBS,harq_process->mcs,harq_process->Qm,harq_process->rvidx,harq_process->round);
tc
=
phy_threegpplte_turbo_decoder8
;
}
//uint32_t Er;
init_thread
(
900000
,
1000000
,
FIFO_PRIORITY
-
1
,
&
cpuset
,
threadname
);
while
(
!
oai_exit
)
{
...
...
@@ -1678,8 +1366,6 @@ uint32_t dlsch_decoding_2thread0(void *arg)
short
*
dlsch_llr
=
phy_vars_ue
->
pdsch_vars
[
phy_vars_ue
->
current_thread_id
[
subframe
]][
eNB_id
]
->
llr
[
0
];
//printf("2thread0 llr flag %d tdp flag %d\n",llr8_flag1, tdp->llr8_flag);
// nb_rb = dlsch->nb_rb;
/*
if (nb_rb > frame_parms->N_RB_DL) {
printf("dlsch_decoding.c: Illegal nb_rb %d\n",nb_rb);
...
...
@@ -1693,51 +1379,48 @@ uint32_t dlsch_decoding_2thread0(void *arg)
}
*/
nb_rb
=
harq_process
->
nb_rb
;
harq_process
->
trials
[
harq_process
->
round
]
++
;
harq_process
->
TBS
=
nr_compute_tbs
(
harq_process
->
mcs
,
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Nl
);
A
=
harq_process
->
TBS
;
//2072 for QPSK 1/3
ret
=
dlsch
->
max_ldpc_iterations
;
harq_process
->
G
=
nr_get_G
(
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Qm
,
harq_process
->
Nl
);
G
=
harq_process
->
G
;
//get_G(frame_parms,nb_rb,dlsch->rb_alloc,mod_order,num_pdcch_symbols,phy_vars_ue->frame,subframe);
if
(
harq_process
->
round
==
0
)
{
// This is a new packet, so compute quantities regarding segmentation
harq_process
->
B
=
A
+
24
;
#ifdef TD_DECODING
lte_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Cplus
,
&
harq_process
->
Cminus
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
F
);
// CLEAR LLR's HERE for first packet in process
#else
nr_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
K
,
&
harq_process
->
Z
,
&
harq_process
->
F
);
p_decParams
->
Z
=
harq_process
->
Z
;
#endif
}
// p_decParams->Z = 128;
kb
=
harq_process
->
K
/
harq_process
->
Z
;
if
(
kb
==
22
){
p_decParams
->
BG
=
1
;
p_decParams
->
R
=
89
;
kc
=
68
;
}
else
{
p_decParams
->
BG
=
2
;
p_decParams
->
R
=
13
;
kc
=
52
;
}
p_decParams
->
numMaxIter
=
2
;
Kr
=
p_decParams
->
Z
*
22
;
Kr
=
p_decParams
->
Z
*
kb
;
p_decParams
->
outMode
=
0
;
/*
...
...
@@ -1753,15 +1436,7 @@ uint32_t dlsch_decoding_2thread0(void *arg)
unsigned char bw_scaling =1;
switch (frame_parms->N_RB_DL) {
case 6:
bw_scaling =16;
break;
case 25:
bw_scaling =4;
break;
case 50:
case 106:
bw_scaling =2;
break;
...
...
@@ -1785,63 +1460,28 @@ uint32_t dlsch_decoding_2thread0(void *arg)
//r_thread = harq_process->C/2-1;
C
=
harq_process
->
C
;
Gp
=
G
/
Nl
/
Qm
;
GpmodC
=
Gp
%
C
;
Cprime
=
C
;
//assume CBGTI not present
if
((
C
/
2
-
1
)
<
(
C
-
(
GpmodC
))
)
r_offset
=
Nl
*
Qm
*
(
Gp
/
C
);
if
(
r
<=
Cprime
-
((
G
/
(
Nl
*
Qm
))
%
Cprime
)
-
1
)
r_offset
=
Nl
*
Qm
*
(
G
/
(
Nl
*
Qm
*
Cprime
)
);
else
r_offset
=
Nl
*
Qm
*
((
GpmodC
==
0
?
0
:
1
)
+
(
Gp
/
C
)
);
r_offset
=
Nl
*
Qm
*
((
G
/
(
Nl
*
Qm
*
Cprime
))
+
1
);
// printf("thread0 r_offset %d\n",r_offset);
//for (r=(harq_process->C/2); r<harq_process->C; r++) {
r
=
1
;
//(harq_process->C/2);
// Get Turbo interleaver parameters
#ifdef TD_DECODING
if
(
r
<
harq_process
->
Cminus
)
Kr
=
harq_process
->
Kminus
;
else
Kr
=
harq_process
->
Kplus
;
#else
Kr
=
harq_process
->
Kplus
;
#endif
Kr
=
harq_process
->
K
;
Kr_bytes
=
Kr
>>
3
;
K_bytes_F
=
Kr_bytes
-
(
harq_process
->
F
>>
3
);
//workaround for nr ldpc using lte interleaving
if
(
dlsch
->
harq_processes
[
harq_pid
]
->
C
>=
2
)
Kr_int
=
G
/
(
3
*
dlsch
->
harq_processes
[
harq_pid
]
->
C
);
else
Kr_int
=
Kr
;
if
(
Kr_bytes
<=
64
)
iind
=
(
Kr_bytes
-
5
);
else
if
(
Kr_bytes
<=
128
)
iind
=
59
+
((
Kr_bytes
-
64
)
>>
1
);
else
if
(
Kr_bytes
<=
256
)
iind
=
91
+
((
Kr_bytes
-
128
)
>>
2
);
else
if
(
Kr_bytes
<=
768
)
iind
=
123
+
((
Kr_bytes
-
256
)
>>
3
);
else
{
//printf("dlsch_decoding: Illegal codeword size %d!!!\n",Kr_bytes);
//return(dlsch->max_ldpc_iterations);
}
#ifdef DEBUG_DLSCH_DECODING
printf
(
"f1 %d, f2 %d, F %d
\n
"
,
f1f2mat_old
[
2
*
iind
],
f1f2mat_old
[
1
+
(
2
*
iind
)],(
r
==
0
)
?
harq_process
->
F
:
0
);
#endif
Tbslbrm
=
nr_compute_tbs
(
28
,
nb_rb
,
frame_parms
->
symbols_per_slot
,
0
,
0
,
harq_process
->
Nl
);
#if UE_TIMING_TRACE
start_meas
(
dlsch_rate_unmatching_stats
);
#endif
memset
(
&
dummy_w
[
r
][
0
],
0
,
3
*
(
8448
+
64
)
*
sizeof
(
short
));
harq_process
->
RTC
[
r
]
=
generate_dummy_w
(
Kr_int
,
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
(
r
==
0
)
?
harq_process
->
F
:
0
);
#ifdef DEBUG_DLSCH_DECODING
LOG_D
(
PHY
,
"HARQ_PID %d Rate Matching Segment %d (coded bits %d,unpunctured/repeated bits %d, TBS %d, mod_order %d, nb_rb %d, Nl %d, rv %d, round %d)...
\n
"
,
...
...
@@ -1858,15 +1498,14 @@ uint32_t dlsch_decoding_2thread0(void *arg)
#ifdef DEBUG_DLSCH_DECODING
printf
(
" in decoding dlsch->harq_processes[harq_pid]->rvidx = %d
\n
"
,
dlsch
->
harq_processes
[
harq_pid
]
->
rvidx
);
#endif
if
(
lte_rate_matching_turbo_rx
(
harq_process
->
RTC
[
r
],
if
(
nr_rate_matching_ldpc_rx
(
Ilbrm
,
Tbslbrm
,
p_decParams
->
BG
,
p_decParams
->
Z
,
G
,
harq_process
->
w
[
r
],
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
dlsch_llr
+
r_offset
,
harq_process
->
C
,
dlsch
->
Nsoft
,
dlsch
->
Mdlharq
,
dlsch
->
Kmimo
,
harq_process
->
rvidx
,
(
harq_process
->
round
==
0
)
?
1
:
0
,
harq_process
->
Qm
,
...
...
@@ -1886,32 +1525,30 @@ uint32_t dlsch_decoding_2thread0(void *arg)
}
r_offset
+=
E
;
/*
printf("Subblock deinterleaving, d %p w %p\n",
harq_process->d[r],
harq_process->w);
*/
//for (int i =0; i<16; i++)
// printf("rx output ratematching w[%d]= %d r_offset %d\n", i,harq_process->w[r][i], r_offset);
#if UE_TIMING_TRACE
start_meas
(
dlsch_deinterleaving_stats
);
#endif
sub_block_deinterleaving_turbo
(
4
+
Kr
,
&
harq_process
->
d
[
r
][
96
]
,
nr_deinterleaving_ldpc
(
E
,
harq_process
->
Qm
,
harq_process
->
d
[
r
],
harq_process
->
w
[
r
]);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_deinterleaving_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
/*
if
(
r
==
0
)
{
write_output
(
"decoder_llr.m"
,
"decllr"
,
dlsch_llr
,
G
,
1
,
0
);
write_output("decoder_in.m","dec",&harq_process->d[0][
96
],(3*8*Kr_bytes)+12,1,0);
write_output
(
"decoder_in.m"
,
"dec"
,
&
harq_process
->
d
[
0
][
0
],(
3
*
8
*
Kr_bytes
)
+
12
,
1
,
0
);
}
printf
(
"decoder input(segment %d) :"
,
r
);
int
i
;
for
(
i
=
0
;
i
<
(
3
*
8
*
Kr_bytes
)
+
12
;
i
++
)
printf("%d : %d\n",i,harq_process->d[r][
96+
i]);
printf("\n");
*/
printf
(
"%d : %d
\n
"
,
i
,
harq_process
->
d
[
r
][
i
]);
printf
(
"
\n
"
);
#endif
...
...
@@ -1924,16 +1561,7 @@ uint32_t dlsch_decoding_2thread0(void *arg)
else
crc_type
=
CRC24_B
;
/*
printf("decoder input(segment %d)\n",r);
for (i=0;i<(3*8*Kr_bytes)+12;i++)
if ((harq_process->d[r][96+i]>7) ||
(harq_process->d[r][96+i] < -8))
printf("%d : %d\n",i,harq_process->d[r][96+i]);
printf("\n");
*/
//#ifndef __AVX2__
#if 1
if
(
err_flag
==
0
)
{
/*
...
...
@@ -1949,58 +1577,38 @@ uint32_t dlsch_decoding_2thread0(void *arg)
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
// LOG_D(PHY,"AbsSubframe %d.%d Start turbo segment %d/%d \n",frame%1024,subframe,r,harq_process->C-1);
#ifdef TD_DECODING
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#else
for
(
int
cnt
=
0
;
cnt
<
(
kc
-
2
)
*
p_decParams
->
Z
;
cnt
++
){
inv_d
[
cnt
]
=
(
1
)
*
harq_process
->
d
[
r
][
cnt
];
}
memset
(
pv
,
0
,
2
*
p_decParams
->
Z
*
sizeof
(
int16_t
));
//memset(pl,0,2*p_decParams->Z*sizeof(int8_t));
memset
((
pv
+
K_bytes_F
),
127
,
harq_process
->
F
*
sizeof
(
int16_t
));
//if (A < 1000){
for
(
i
=
2
*
p_decParams
->
Z
/
8
,
j
=
0
;
i
<
(
68
*
p_decParams
->
Z
/
8
+
1
);
i
++
,
j
++
)
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
+
((
2
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
}
/*}
else{
for (i=2*p_decParams->Z/8, j = 0; i < (68*p_decParams->Z/8+1); i++, j++)
for
(
i
=
Kr_bytes
+
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
Kr_bytes
;
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv[i]= _mm_loadu_si128((__m128i*)&harq_process->d[r][96+8*j]
);
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
])
);
}
}*/
for
(
i
=
0
,
j
=
0
;
j
<
(
68
*
p_decParams
->
Z
/
16
);
i
+=
2
,
j
++
)
for
(
i
=
0
,
j
=
0
;
j
<
(
(
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
//printf("mm packs i %d j %d\n", i, j);
//print128_num(pv[i]);
//print128_num(pv[i+1]);
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
//print128_num2bytes(pl[j]);
}
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
&
pl
[
0
],
(
int8_t
*
)
&
pl
[
0
],
llrProcBuf
,
p_procTime
);
if
(
no_iteration_ldpc
>
2
)
if
(
no_iteration_ldpc
>
10
)
printf
(
"Error number of iteration LPDC %d
\n
"
,
no_iteration_ldpc
);
//else
//printf("OK number of iteration LPDC %d\n", no_iteration_ldpc);
...
...
@@ -2025,160 +1633,11 @@ uint32_t dlsch_decoding_2thread0(void *arg)
}
printf(" \n");*/
#endif
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
#else
if
((
harq_process
->
C
==
1
)
||
((
r
==
harq_process
->
C
-
1
)
&&
(
skipped_last
==
0
)))
{
// last segment with odd number of segments
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
// printf("single decode, exit\n");
// exit(-1);
}
else
{
// we can merge code segments
if
((
skipped_last
==
0
)
&&
(
r
<
harq_process
->
C
-
1
))
{
skipped_last
=
1
;
Kr_last
=
Kr
;
}
else
{
skipped_last
=
0
;
if
(
Kr_last
==
Kr
)
{
// decode 2 code segments with AVX2 version
#ifdef DEBUG_DLSCH_DECODING
printf
(
"single decoding segment %d (%p)
\n
"
,
r
-
1
,
&
harq_process
->
d
[
r
-
1
][
96
]);
#endif
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
printf
(
"double decoding segments %d,%d (%p,%p)
\n
"
,
r
-
1
,
r
,
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
]);
#endif
ret
=
tc_2cw
(
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
-
1
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
/*
ret = tc
(&harq_process->d[r-1][96],
harq_process->c[r-1],
Kr_last,
f1f2mat_old[iind*2],
f1f2mat_old[(iind*2)+1],
dlsch->max_ldpc_iterations,
crc_type,
(r==0) ? harq_process->F : 0,
&phy_vars_ue->dlsch_tc_init_stats,
&phy_vars_ue->dlsch_tc_alpha_stats,
&phy_vars_ue->dlsch_tc_beta_stats,
&phy_vars_ue->dlsch_tc_gamma_stats,
&phy_vars_ue->dlsch_tc_ext_stats,
&phy_vars_ue->dlsch_tc_intl1_stats,
&phy_vars_ue->dlsch_tc_intl2_stats); //(is_crnti==0)?harq_pid:harq_pid+1);
exit(-1);*/
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
else
{
// Kr_last != Kr
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
-
1
][
96
],
harq_process
->
c
[
r
-
1
],
Kr_last
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
/*printf("Segmentation: C %d r %d, dlsch_rate_unmatching_stats %5.3f dlsch_deinterleaving_stats %5.3f dlsch_turbo_decoding_stats %5.3f \n",
harq_process->C,
r,
dlsch_rate_unmatching_stats->p_time/(cpuf*1000.0),
dlsch_deinterleaving_stats->p_time/(cpuf*1000.0),
dlsch_turbo_decoding_stats->p_time/(cpuf*1000.0));*/
#endif
}
}
}
#endif
if
((
err_flag
==
0
)
&&
(
ret
>=
(
1
+
dlsch
->
max_ldpc_iterations
)))
{
// a Code segment is in error so break;
// LOG_D(PHY,"AbsSubframe %d.%d CRC failed, segment %d/%d \n",frame%1024,subframe,r,harq_process->C-1);
...
...
@@ -2305,12 +1764,13 @@ uint32_t dlsch_decoding_2thread0(void *arg)
#ifdef UE_DLSCH_PARALLELISATION
#define FIFO_PRIORITY 39
uint32_t
dlsch_decoding_2thread1
(
void
*
arg
)
void
*
nr_
dlsch_decoding_2thread1
(
void
*
arg
)
{
static
__thread
int
UE_dlsch_td_retval1
;
struct
rx_
tx_thread_data
*
rtd
=
arg
;
UE_rxtx_proc_t
*
proc
=
rtd
->
proc
;
struct
nr_rx
tx_thread_data
*
rtd
=
arg
;
UE_
nr_
rxtx_proc_t
*
proc
=
rtd
->
proc
;
PHY_VARS_NR_UE
*
phy_vars_ue
=
rtd
->
UE
;
NR_DL_FRAME_PARMS
*
frame_parms
=
&
phy_vars_ue
->
frame_parms
;
int
llr8_flag1
;
int32_t
no_iteration_ldpc
;
...
...
@@ -2322,10 +1782,17 @@ uint32_t dlsch_decoding_2thread1(void *arg)
int8_t
l
[
68
*
384
];
//__m128i l;
int16_t
inv_d
[
68
*
384
];
int16_t
*
p_invd
=&
inv_d
;
//int16_t *p_invd =&inv_d;
uint8_t
kb
,
kc
;
uint8_t
Ilbrm
=
0
;
uint32_t
Tbslbrm
=
950984
;
uint16_t
nb_rb
=
30
;
//to update
uint16_t
nb_symb_sch
=
12
;
uint8_t
nb_re_dmrs
=
6
;
uint16_t
length_dmrs
=
1
;
uint32_t
i
,
j
;
uint32_t
k
;
//
uint32_t k;
__m128i
*
pv
=
(
__m128i
*
)
&
z
;
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
...
...
@@ -2358,48 +1825,12 @@ uint32_t dlsch_decoding_2thread1(void *arg)
uint32_t
A
,
E
;
uint32_t
G
;
uint32_t
ret
,
offset
;
uint16_t
iind
;
// uint8_t dummy_channel_output[(3*8*block_length)+12];
short
dummy_w
[
MAX_NUM_DLSCH_SEGMENTS
][
3
*
(
8448
+
64
)];
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
Kr_int
;
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
K_bytes_F
;
uint8_t
crc_type
;
uint8_t
C
;
uint8_t
C
,
Cprime
;
uint8_t
Qm
;
uint8_t
Nl
;
uint32_t
Er
,
Gp
,
GpmodC
;
#ifdef DEBUG_DLSCH_DECODING
uint16_t
i
;
#endif
//#ifdef __AVX2__
uint8_t
(
*
tc
)(
int16_t
*
y
,
uint8_t
*
,
uint16_t
,
uint16_t
,
uint16_t
,
uint8_t
,
uint8_t
,
uint8_t
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
,
time_stats_t
*
);
if
(
llr8_flag1
==
0
)
{
//#ifdef __AVX2__
#if 0
tc_2cw = phy_threegpplte_turbo_decoder16avx2;
#endif
tc
=
phy_threegpplte_turbo_decoder16
;
}
else
{
//AssertFatal (harq_process->TBS >= 256 , "Mismatch flag nbRB=%d TBS=%d mcs=%d Qm=%d RIV=%d round=%d \n",
// harq_process->nb_rb, harq_process->TBS,harq_process->mcs,harq_process->Qm,harq_process->rvidx,harq_process->round);
tc
=
phy_threegpplte_turbo_decoder8
;
}
//uint32_t Er;
init_thread
(
900000
,
1000000
,
FIFO_PRIORITY
-
1
,
&
cpuset
,
threadname
);
printf
(
"2thread1 oai_exit %d
\n
"
,
oai_exit
);
...
...
@@ -2427,7 +1858,6 @@ uint32_t dlsch_decoding_2thread1(void *arg)
}
//proc->decoder_thread_available1 = 0;
//PHY_VARS_NR_UE *phy_vars_ue = tdp->UE;
int
eNB_id
=
proc
->
eNB_id
;
int
harq_pid
=
proc
->
harq_pid
;
...
...
@@ -2442,8 +1872,6 @@ uint32_t dlsch_decoding_2thread1(void *arg)
//printf("2thread0 llr flag %d tdp flag %d\n",llr8_flag1, tdp->llr8_flag);
//printf("2thread1 nr_tti_tx %d subframe %d SF thread id %d r_offset %d\n", proc->nr_tti_rx, subframe, phy_vars_ue->current_thread_id[subframe], r_offset);
// nb_rb = dlsch->nb_rb;
/*
if (nb_rb > frame_parms->N_RB_DL) {
printf("dlsch_decoding.c: Illegal nb_rb %d\n",nb_rb);
...
...
@@ -2457,14 +1885,16 @@ uint32_t dlsch_decoding_2thread1(void *arg)
}
*/
nb_rb
=
harq_process
->
nb_rb
;
harq_process
->
trials
[
harq_process
->
round
]
++
;
harq_process
->
TBS
=
nr_compute_tbs
(
harq_process
->
mcs
,
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Nl
);
A
=
harq_process
->
TBS
;
//2072 for QPSK 1/3
ret
=
dlsch
->
max_ldpc_iterations
;
harq_process
->
G
=
nr_get_G
(
nb_rb
,
nb_symb_sch
,
nb_re_dmrs
,
length_dmrs
,
harq_process
->
Qm
,
harq_process
->
Nl
);
G
=
harq_process
->
G
;
//get_G(frame_parms,nb_rb,dlsch->rb_alloc,mod_order,num_pdcch_symbols,phy_vars_ue->frame,subframe);
...
...
@@ -2474,37 +1904,31 @@ uint32_t dlsch_decoding_2thread1(void *arg)
if
(
harq_process
->
round
==
0
)
{
// This is a new packet, so compute quantities regarding segmentation
harq_process
->
B
=
A
+
24
;
#ifdef TD_DECODING
lte_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Cplus
,
&
harq_process
->
Cminus
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
F
);
// CLEAR LLR's HERE for first packet in process
#else
nr_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
Kplus
,
&
harq_process
->
Kminus
,
&
harq_process
->
K
,
&
harq_process
->
Z
,
&
harq_process
->
F
);
p_decParams
->
Z
=
harq_process
->
Z
;
#endif
}
// p_decParams->Z = 128;
kb
=
harq_process
->
K
/
harq_process
->
Z
;
if
(
kb
==
22
){
p_decParams
->
BG
=
1
;
p_decParams
->
R
=
89
;
kc
=
68
;
}
else
{
p_decParams
->
BG
=
2
;
p_decParams
->
R
=
13
;
kc
=
52
;
}
p_decParams
->
numMaxIter
=
2
;
Kr
=
p_decParams
->
Z
*
22
;
Kr
=
p_decParams
->
Z
*
kb
;
p_decParams
->
outMode
=
0
;
/*
else {
...
...
@@ -2519,15 +1943,7 @@ uint32_t dlsch_decoding_2thread1(void *arg)
unsigned char bw_scaling =1;
switch (frame_parms->N_RB_DL) {
case 6:
bw_scaling =16;
break;
case 25:
bw_scaling =4;
break;
case 50:
case 106:
bw_scaling =2;
break;
...
...
@@ -2551,15 +1967,12 @@ uint32_t dlsch_decoding_2thread1(void *arg)
//r_thread = harq_process->C/2-1;
C
=
harq_process
->
C
;
Gp
=
G
/
Nl
/
Qm
;
GpmodC
=
Gp
%
C
;
Cprime
=
C
;
//assume CBGTI not present
if
((
C
/
2
-
1
)
<
(
C
-
(
GpmodC
)))
r_offset
=
Nl
*
Qm
*
(
Gp
/
C
);
if
(
r
<=
Cprime
-
((
G
/
(
Nl
*
Qm
))
%
Cprime
)
-
1
)
r_offset
=
Nl
*
Qm
*
(
G
/
(
Nl
*
Qm
*
Cprime
));
else
r_offset
=
Nl
*
Qm
*
((
GpmodC
==
0
?
0
:
1
)
+
(
Gp
/
C
)
);
r_offset
=
Nl
*
Qm
*
((
G
/
(
Nl
*
Qm
*
Cprime
))
+
1
);
//printf("sub thread r_offset %d\n", r_offset);
...
...
@@ -2569,48 +1982,15 @@ uint32_t dlsch_decoding_2thread1(void *arg)
//printf("thread1 r=%d r_offset %d \n",r, r_offset);
// Get Turbo interleaver parameters
#ifdef TD_DECODING
if
(
r
<
harq_process
->
Cminus
)
Kr
=
harq_process
->
Kminus
;
else
Kr
=
harq_process
->
Kplus
;
#else
Kr
=
harq_process
->
Kplus
;
#endif
Kr
=
harq_process
->
K
;
Kr_bytes
=
Kr
>>
3
;
K_bytes_F
=
Kr_bytes
-
(
harq_process
->
F
>>
3
);
//workaround for nr ldpc using lte interleaving
if
(
dlsch
->
harq_processes
[
harq_pid
]
->
C
>=
2
)
Kr_int
=
G
/
(
3
*
dlsch
->
harq_processes
[
harq_pid
]
->
C
);
else
Kr_int
=
Kr
;
if
(
Kr_bytes
<=
64
)
iind
=
(
Kr_bytes
-
5
);
else
if
(
Kr_bytes
<=
128
)
iind
=
59
+
((
Kr_bytes
-
64
)
>>
1
);
else
if
(
Kr_bytes
<=
256
)
iind
=
91
+
((
Kr_bytes
-
128
)
>>
2
);
else
if
(
Kr_bytes
<=
768
)
iind
=
123
+
((
Kr_bytes
-
256
)
>>
3
);
else
{
//printf("dlsch_decoding: Illegal codeword size %d!!!\n",Kr_bytes);
//return(dlsch->max_ldpc_iterations);
}
#ifdef DEBUG_DLSCH_DECODING
printf
(
"f1 %d, f2 %d, F %d
\n
"
,
f1f2mat_old
[
2
*
iind
],
f1f2mat_old
[
1
+
(
2
*
iind
)],(
r
==
0
)
?
harq_process
->
F
:
0
);
#endif
Tbslbrm
=
nr_compute_tbs
(
28
,
nb_rb
,
frame_parms
->
symbols_per_slot
,
0
,
0
,
harq_process
->
Nl
);
#if UE_TIMING_TRACE
start_meas
(
dlsch_rate_unmatching_stats
);
#endif
memset
(
&
dummy_w
[
r
][
0
],
0
,
3
*
(
8448
+
64
)
*
sizeof
(
short
));
harq_process
->
RTC
[
r
]
=
generate_dummy_w
(
Kr_int
,
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
(
r
==
0
)
?
harq_process
->
F
:
0
);
#ifdef DEBUG_DLSCH_DECODING
LOG_D
(
PHY
,
"HARQ_PID %d Rate Matching Segment %d (coded bits %d,unpunctured/repeated bits %d, TBS %d, mod_order %d, nb_rb %d, Nl %d, rv %d, round %d)...
\n
"
,
...
...
@@ -2627,15 +2007,14 @@ uint32_t dlsch_decoding_2thread1(void *arg)
#ifdef DEBUG_DLSCH_DECODING
printf
(
" in decoding dlsch->harq_processes[harq_pid]->rvidx = %d
\n
"
,
dlsch
->
harq_processes
[
harq_pid
]
->
rvidx
);
#endif
if
(
lte_rate_matching_turbo_rx
(
harq_process
->
RTC
[
r
],
if
(
nr_rate_matching_ldpc_rx
(
Ilbrm
,
Tbslbrm
,
p_decParams
->
BG
,
p_decParams
->
Z
,
G
,
harq_process
->
w
[
r
],
(
uint8_t
*
)
&
dummy_w
[
r
][
0
],
dlsch_llr
+
r_offset
,
harq_process
->
C
,
dlsch
->
Nsoft
,
dlsch
->
Mdlharq
,
dlsch
->
Kmimo
,
harq_process
->
rvidx
,
(
harq_process
->
round
==
0
)
?
1
:
0
,
harq_process
->
Qm
,
...
...
@@ -2663,24 +2042,23 @@ uint32_t dlsch_decoding_2thread1(void *arg)
#if UE_TIMING_TRACE
start_meas
(
dlsch_deinterleaving_stats
);
#endif
sub_block_deinterleaving_turbo
(
4
+
Kr
,
&
harq_process
->
d
[
r
][
96
]
,
nr_deinterleaving_ldpc
(
E
,
harq_process
->
Qm
,
harq_process
->
d
[
r
],
harq_process
->
w
[
r
]);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_deinterleaving_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
/*
if
(
r
==
0
)
{
write_output
(
"decoder_llr.m"
,
"decllr"
,
dlsch_llr
,
G
,
1
,
0
);
write_output("decoder_in.m","dec",&harq_process->d[0][
96
],(3*8*Kr_bytes)+12,1,0);
write_output
(
"decoder_in.m"
,
"dec"
,
&
harq_process
->
d
[
0
][
0
],(
3
*
8
*
Kr_bytes
)
+
12
,
1
,
0
);
}
printf
(
"decoder input(segment %d) :"
,
r
);
int
i
;
for
(
i
=
0
;
i
<
(
3
*
8
*
Kr_bytes
)
+
12
;
i
++
)
printf("%d : %d\n",i,harq_process->d[r][
96+
i]);
printf("\n");
*/
printf
(
"%d : %d
\n
"
,
i
,
harq_process
->
d
[
r
][
i
]);
printf
(
"
\n
"
);
#endif
...
...
@@ -2693,17 +2071,6 @@ uint32_t dlsch_decoding_2thread1(void *arg)
else
crc_type
=
CRC24_B
;
/*
printf("decoder input(segment %d)\n",r);
for (i=0;i<(3*8*Kr_bytes)+12;i++)
if ((harq_process->d[r][96+i]>7) ||
(harq_process->d[r][96+i] < -8))
printf("%d : %d\n",i,harq_process->d[r][96+i]);
printf("\n");
*/
//#ifndef __AVX2__
#if 1
if
(
err_flag
==
0
)
{
/*
LOG_I(PHY, "turbo algo Kr=%d cb_cnt=%d C=%d nbRB=%d crc_type %d TBSInput=%d TBSHarq=%d TBSplus24=%d mcs=%d Qm=%d RIV=%d round=%d maxIter %d\n",
...
...
@@ -2718,50 +2085,34 @@ uint32_t dlsch_decoding_2thread1(void *arg)
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
// LOG_D(PHY,"AbsSubframe %d.%d Start turbo segment %d/%d \n",frame%1024,subframe,r,harq_process->C-1);
#ifdef TD_DECODING
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#else
memset
(
pv
,
0
,
2
*
p_decParams
->
Z
*
sizeof
(
int16_t
));
//memset(pl,0,2*p_decParams->Z*sizeof(int8_t));
memset
((
pv
+
K_bytes_F
),
127
,
harq_process
->
F
*
sizeof
(
int16_t
));
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
+
((
2
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
}
for
(
i
=
2
*
p_decParams
->
Z
/
8
,
j
=
0
;
i
<
(
68
*
p_decParams
->
Z
/
8
+
1
);
i
++
,
j
++
)
for
(
i
=
Kr_bytes
+
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
Kr_bytes
;
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
}
for
(
i
=
0
,
j
=
0
;
j
<
(
68
*
p_decParams
->
Z
/
16
);
i
+=
2
,
j
++
)
for
(
i
=
0
,
j
=
0
;
j
<
(
(
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
//printf("mm packs i %d j %d\n", i, j);
//print128_num(pv[i]);
//print128_num(pv[i+1]);
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
//print128_num2bytes(pl[j]);
}
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
&
pl
[
0
],
(
int8_t
*
)
&
pl
[
0
],
llrProcBuf
,
p_procTime
);
if
(
no_iteration_ldpc
>
2
)
if
(
no_iteration_ldpc
>
10
)
printf
(
"Error number of iteration LPDC %d
\n
"
,
no_iteration_ldpc
);
//else
// printf("OK number of iteration LPDC %d\n", no_iteration_ldpc);
...
...
@@ -2795,154 +2146,6 @@ uint32_t dlsch_decoding_2thread1(void *arg)
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
#else
if
((
harq_process
->
C
==
1
)
||
((
r
==
harq_process
->
C
-
1
)
&&
(
skipped_last
==
0
)))
{
// last segment with odd number of segments
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
// printf("single decode, exit\n");
// exit(-1);
}
else
{
// we can merge code segments
if
((
skipped_last
==
0
)
&&
(
r
<
harq_process
->
C
-
1
))
{
skipped_last
=
1
;
Kr_last
=
Kr
;
}
else
{
skipped_last
=
0
;
if
(
Kr_last
==
Kr
)
{
// decode 2 code segments with AVX2 version
#ifdef DEBUG_DLSCH_DECODING
printf
(
"single decoding segment %d (%p)
\n
"
,
r
-
1
,
&
harq_process
->
d
[
r
-
1
][
96
]);
#endif
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
#ifdef DEBUG_DLSCH_DECODING
printf
(
"double decoding segments %d,%d (%p,%p)
\n
"
,
r
-
1
,
r
,
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
]);
#endif
ret
=
tc_2cw
(
&
harq_process
->
d
[
r
-
1
][
96
],
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
-
1
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
/*
ret = tc
(&harq_process->d[r-1][96],
harq_process->c[r-1],
Kr_last,
f1f2mat_old[iind*2],
f1f2mat_old[(iind*2)+1],
dlsch->max_ldpc_iterations,
crc_type,
(r==0) ? harq_process->F : 0,
&phy_vars_ue->dlsch_tc_init_stats,
&phy_vars_ue->dlsch_tc_alpha_stats,
&phy_vars_ue->dlsch_tc_beta_stats,
&phy_vars_ue->dlsch_tc_gamma_stats,
&phy_vars_ue->dlsch_tc_ext_stats,
&phy_vars_ue->dlsch_tc_intl1_stats,
&phy_vars_ue->dlsch_tc_intl2_stats); //(is_crnti==0)?harq_pid:harq_pid+1);
exit(-1);*/
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#endif
}
else
{
// Kr_last != Kr
#if UE_TIMING_TRACE
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
-
1
][
96
],
harq_process
->
c
[
r
-
1
],
Kr_last
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
start_meas
(
dlsch_turbo_decoding_stats
);
#endif
ret
=
tc
(
&
harq_process
->
d
[
r
][
96
],
harq_process
->
c
[
r
],
Kr
,
f1f2mat_old
[
iind
*
2
],
f1f2mat_old
[(
iind
*
2
)
+
1
],
dlsch
->
max_ldpc_iterations
,
crc_type
,
(
r
==
0
)
?
harq_process
->
F
:
0
,
&
phy_vars_ue
->
dlsch_tc_init_stats
,
&
phy_vars_ue
->
dlsch_tc_alpha_stats
,
&
phy_vars_ue
->
dlsch_tc_beta_stats
,
&
phy_vars_ue
->
dlsch_tc_gamma_stats
,
&
phy_vars_ue
->
dlsch_tc_ext_stats
,
&
phy_vars_ue
->
dlsch_tc_intl1_stats
,
&
phy_vars_ue
->
dlsch_tc_intl2_stats
);
//(is_crnti==0)?harq_pid:harq_pid+1);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
/*printf("Segmentation: C %d r %d, dlsch_rate_unmatching_stats %5.3f dlsch_deinterleaving_stats %5.3f dlsch_turbo_decoding_stats %5.3f \n",
harq_process->C,
r,
dlsch_rate_unmatching_stats->p_time/(cpuf*1000.0),
dlsch_deinterleaving_stats->p_time/(cpuf*1000.0),
dlsch_turbo_decoding_stats->p_time/(cpuf*1000.0));*/
#endif
}
}
}
#endif
if
((
err_flag
==
0
)
&&
(
ret
>=
(
1
+
dlsch
->
max_ldpc_iterations
)))
{
// a Code segment is in error so break;
// LOG_D(PHY,"AbsSubframe %d.%d CRC failed, segment %d/%d \n",frame%1024,subframe,r,harq_process->C-1);
...
...
@@ -2957,95 +2160,7 @@ uint32_t dlsch_decoding_2thread1(void *arg)
subframe_rx_prev += 10;
}
frame_rx_prev = frame_rx_prev%1024;*/
#if 0
if (err_flag == 1) {
//#if UE_DEBUG_TRACE
LOG_I(PHY,"[UE %d] THREAD 0 DLSCH: Setting NAK for SFN/SF %d/%d (pid %d, status %d, round %d, TBS %d, mcs %d) Kr %d r %d harq_process->round %d\n",
phy_vars_ue->Mod_id, frame, subframe, harq_pid,harq_process->status, harq_process->round,harq_process->TBS,harq_process->mcs,Kr,r,harq_process->round);
//#endif
dlsch->harq_ack[subframe].ack = 0;
dlsch->harq_ack[subframe].harq_id = harq_pid;
dlsch->harq_ack[subframe].send_harq_status = 1;
harq_process->errors[harq_process->round]++;
harq_process->round++;
// printf("Rate: [UE %d] DLSCH: Setting NACK for subframe %d (pid %d, round %d)\n",phy_vars_ue->Mod_id,subframe,harq_pid,harq_process->round);
if (harq_process->round >= dlsch->Mdlharq) {
harq_process->status = SCH_IDLE;
harq_process->round = 0;
}
/* if(is_crnti)
{
LOG_D(PHY,"[UE %d] DLSCH: Setting NACK for subframe %d (pid %d, pid status %d, round %d/Max %d, TBS %d)\n",
phy_vars_ue->Mod_id,subframe,harq_pid,harq_process->status,harq_process->round,dlsch->Mdlharq,harq_process->TBS);
}*/
//return((1+dlsch->max_ldpc_iterations));
} else {
#if UE_DEBUG_TRACE
LOG_I(PHY,"[UE %d] THREAD 0 DLSCH: Setting ACK for subframe %d TBS %d mcs %d nb_rb %d\n",
phy_vars_ue->Mod_id,subframe,harq_process->TBS,harq_process->mcs,harq_process->nb_rb);
#endif
harq_process->status = SCH_IDLE;
harq_process->round = 0;
dlsch->harq_ack[subframe].ack = 1;
dlsch->harq_ack[subframe].harq_id = harq_pid;
dlsch->harq_ack[subframe].send_harq_status = 1;
//LOG_I(PHY,"[UE %d] DLSCH: Setting ACK for SFN/SF %d/%d (pid %d, status %d, round %d, TBS %d, mcs %d)\n",
// phy_vars_ue->Mod_id, frame, subframe, harq_pid, harq_process->status, harq_process->round,harq_process->TBS,harq_process->mcs);
/* if(is_crnti)
{
LOG_D(PHY,"[UE %d] DLSCH: Setting ACK for subframe %d (pid %d, round %d, TBS %d)\n",phy_vars_ue->Mod_id,subframe,harq_pid,harq_process->round,harq_process->TBS);
}
LOG_D(PHY,"[UE %d] DLSCH: Setting ACK for subframe %d (pid %d, round %d)\n",phy_vars_ue->Mod_id,subframe,harq_pid,harq_process->round);
}*/
// Reassembly of Transport block here
offset = 0;
/*
printf("harq_pid %d\n",harq_pid);
printf("F %d, Fbytes %d\n",harq_process->F,harq_process->F>>3);
printf("C %d\n",harq_process->C);
*/
for (r=0; r<harq_process->C; r++) {
if (r<harq_process->Cminus)
Kr = harq_process->Kminus;
else
Kr = harq_process->Kplus;
Kr_bytes = Kr>>3;
// printf("Segment %d : Kr= %d bytes\n",r,Kr_bytes);
if (r==0) {
memcpy(harq_process->b,
&harq_process->c[0][(harq_process->F>>3)],
Kr_bytes - (harq_process->F>>3)- ((harq_process->C>1)?3:0));
offset = Kr_bytes - (harq_process->F>>3) - ((harq_process->C>1)?3:0);
// printf("copied %d bytes to b sequence (harq_pid %d)\n",
// Kr_bytes - (harq_process->F>>3),harq_pid);
// printf("b[0] = %x,c[%d] = %x\n",
// harq_process->b[0],
// harq_process->F>>3,
// harq_process->c[0][(harq_process->F>>3)]);
} else {
memcpy(harq_process->b+offset,
harq_process->c[r],
Kr_bytes- ((harq_process->C>1)?3:0));
offset += (Kr_bytes - ((harq_process->C>1)?3:0));
}
}
dlsch->last_iteration_cnt = ret;
//return(ret);
}
#endif
proc
->
decoder_thread_available1
=
1
;
//proc->decoder_main_available = 0;
...
...
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
View file @
c6357850
...
...
@@ -32,6 +32,7 @@
#ifndef __NR_TRANSPORT_PROTO_UE__H__
#define __NR_TRANSPORT_PROTO_UE__H__
#include "PHY/defs_nr_UE.h"
#include "SCHED_NR_UE/defs.h"
//#include "PHY/LTE_TRANSPORT/transport_common_proto.h"
#include <math.h>
#include "nfapi_interface.h"
...
...
@@ -1005,6 +1006,23 @@ uint32_t nr_dlsch_decoding(PHY_VARS_NR_UE *phy_vars_ue,
uint8_t
is_crnti
,
uint8_t
llr8_flag
);
uint32_t
nr_dlsch_decoding_mthread
(
PHY_VARS_NR_UE
*
phy_vars_ue
,
UE_nr_rxtx_proc_t
*
proc
,
int
eNB_id
,
short
*
dlsch_llr
,
NR_DL_FRAME_PARMS
*
frame_parms
,
NR_UE_DLSCH_t
*
dlsch
,
NR_DL_UE_HARQ_t
*
harq_process
,
uint32_t
frame
,
uint8_t
nr_tti_rx
,
uint8_t
harq_pid
,
uint8_t
is_crnti
,
uint8_t
llr8_flag
);
void
*
nr_dlsch_decoding_2thread0
(
void
*
arg
);
void
*
nr_dlsch_decoding_2thread1
(
void
*
arg
);
void
nr_dlsch_unscrambling
(
int16_t
*
llr
,
uint8_t
size
,
uint8_t
q
,
...
...
openair1/SCHED_NR_UE/defs.h
View file @
c6357850
...
...
@@ -112,7 +112,7 @@ int phy_procedures_RN_UE_RX(unsigned char last_slot, unsigned char next_slot, re
@param mode calib/normal mode
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void
phy_procedures_UE_TX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
runmode_t
mode
,
relaying_type_t
r_type
);
void
phy_procedures_
nr
UE_TX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
runmode_t
mode
,
relaying_type_t
r_type
);
/*! \brief Scheduling for UE RX procedures in normal subframes.
@param last_slot Index of last slot (0-19)
@param phy_vars_ue Pointer to UE variables on which to act
...
...
@@ -124,7 +124,7 @@ void phy_procedures_UE_TX(PHY_VARS_NR_UE *ue,UE_nr_rxtx_proc_t *proc,uint8_t eNB
@param phy_vars_rn pointer to RN variables
*/
int
phy_procedures_nrUE_RX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
uint8_t
do_pdcch_flag
,
runmode_t
mode
,
relaying_type_t
r_type
);
int
phy_procedures_slot_parallelization_UE_RX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
uint8_t
do_pdcch_flag
,
runmode_t
mode
,
relaying_type_t
r_type
);
int
phy_procedures_slot_parallelization_
nr
UE_RX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
uint8_t
do_pdcch_flag
,
runmode_t
mode
,
relaying_type_t
r_type
);
#ifdef UE_SLOT_PARALLELISATION
void
*
UE_thread_slot1_dl_processing
(
void
*
arg
);
...
...
@@ -136,7 +136,7 @@ void *UE_thread_slot1_dl_processing(void *arg);
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void
phy_procedures_UE_S_TX
(
PHY_VARS_NR_UE
*
ue
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
relaying_type_t
r_type
);
//
void phy_procedures_UE_S_TX(PHY_VARS_NR_UE *ue,uint8_t eNB_id,uint8_t abstraction_flag,relaying_type_t r_type);
/*! \brief Scheduling for UE RX procedures in TDD S-subframes.
@param phy_vars_ue Pointer to UE variables on which to act
...
...
@@ -144,7 +144,7 @@ void phy_procedures_UE_S_TX(PHY_VARS_NR_UE *ue,uint8_t eNB_id,uint8_t abstractio
@param abstraction_flag Indicator of PHY abstraction
@param r_type indicates the relaying operation: 0: no_relaying, 1: unicast relaying type 1, 2: unicast relaying type 2, 3: multicast relaying
*/
void
phy_procedures_UE_S_RX
(
PHY_VARS_NR_UE
*
ue
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
relaying_type_t
r_type
);
//
void phy_procedures_UE_S_RX(PHY_VARS_NR_UE *ue,uint8_t eNB_id,uint8_t abstraction_flag, relaying_type_t r_type);
/*! \brief Function to compute subframe type as a function of Frame type and TDD Configuration (implements Table 4.2.2 from 36.211, p.11 from version 8.6) and subframe index.
...
...
openair1/SCHED_NR_UE/phy_procedures_nr_ue.c
View file @
c6357850
...
...
@@ -40,7 +40,7 @@
#include "PHY/phy_extern_nr_ue.h"
#include "PHY/NR_REFSIG/refsig_defs_ue.h"
#include "PHY/MODULATION/modulation_UE.h"
//#include "PHY/NR_UE_TRANSPORT/nr_transport
_ue.h"
#include "PHY/NR_UE_TRANSPORT/nr_transport_proto
_ue.h"
//#include "PHY/extern.h"
#include "SCHED_NR_UE/defs.h"
#include "SCHED_NR/extern.h"
...
...
@@ -3936,7 +3936,7 @@ void ue_pmch_procedures(PHY_VARS_NR_UE *ue, UE_nr_rxtx_proc_t *proc,int eNB_id,i
ue
->
pdsch_vars_MCH
[
0
]
->
llr
[
0
],
0
,
nr_tti_rx
<<
1
);
#ifdef UE_DLSCH_PARALLELISATION
ret
=
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
ret
=
nr_
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
ue
->
pdsch_vars_MCH
[
0
]
->
llr
[
0
],
&
ue
->
frame_parms
,
ue
->
dlsch_MCH
[
0
],
...
...
@@ -3946,7 +3946,7 @@ void ue_pmch_procedures(PHY_VARS_NR_UE *ue, UE_nr_rxtx_proc_t *proc,int eNB_id,i
0
,
0
,
1
);
#else
ret
=
dlsch_decoding
(
ue
,
ret
=
nr_
dlsch_decoding
(
ue
,
ue
->
pdsch_vars_MCH
[
0
]
->
llr
[
0
],
&
ue
->
frame_parms
,
ue
->
dlsch_MCH
[
0
],
...
...
@@ -4370,7 +4370,7 @@ void nr_ue_dlsch_procedures(PHY_VARS_NR_UE *ue,
#endif
#ifdef UE_DLSCH_PARALLELISATION
ret
=
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
ret
=
nr_
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
pdsch_vars
->
llr
[
0
],
&
ue
->
frame_parms
,
dlsch0
,
...
...
@@ -4446,7 +4446,7 @@ void nr_ue_dlsch_procedures(PHY_VARS_NR_UE *ue,
#endif
#ifdef UE_DLSCH_PARALLELISATION
ret1
=
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
ret1
=
nr_
dlsch_decoding_mthread
(
ue
,
proc
,
eNB_id
,
pdsch_vars
->
llr
[
1
],
&
ue
->
frame_parms
,
dlsch1
,
...
...
@@ -4958,7 +4958,7 @@ void *UE_thread_slot1_dl_processing(void *arg) {
#endif
#ifdef UE_SLOT_PARALLELISATION
int
phy_procedures_slot_parallelization_UE_RX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
int
phy_procedures_slot_parallelization_
nr
UE_RX
(
PHY_VARS_NR_UE
*
ue
,
UE_nr_rxtx_proc_t
*
proc
,
uint8_t
eNB_id
,
uint8_t
abstraction_flag
,
uint8_t
do_pdcch_flag
,
runmode_t
mode
,
relaying_type_t
r_type
)
{
...
...
targets/RT/USER/nr-ue.c
View file @
c6357850
...
...
@@ -680,7 +680,7 @@ static void *UE_thread_rxn_txnp4(void *arg) {
//clean previous FAPI MESSAGE
#ifdef UE_SLOT_PARALLELISATION
phy_procedures_slot_parallelization_UE_RX
(
UE
,
proc
,
0
,
0
,
1
,
UE
->
mode
,
no_relay
,
NULL
);
phy_procedures_slot_parallelization_
nr
UE_RX
(
UE
,
proc
,
0
,
0
,
1
,
UE
->
mode
,
no_relay
,
NULL
);
#else
phy_procedures_nrUE_RX
(
UE
,
proc
,
0
,
0
,
1
,
UE
->
mode
,
no_relay
);
printf
(
">>> nr_ue_pdcch_procedures ended
\n
"
);
...
...
@@ -1187,11 +1187,11 @@ void init_UE_threads(PHY_VARS_NR_UE *UE) {
#ifdef UE_DLSCH_PARALLELISATION
pthread_mutex_init
(
&
UE
->
proc
.
proc_rxtx
[
i
].
mutex_dlsch_td
,
NULL
);
pthread_cond_init
(
&
UE
->
proc
.
proc_rxtx
[
i
].
cond_dlsch_td
,
NULL
);
pthread_create
(
&
UE
->
proc
.
proc_rxtx
[
i
].
pthread_dlsch_td
,
NULL
,
dlsch_decoding_2thread0
,
rtd
);
pthread_create
(
&
UE
->
proc
.
proc_rxtx
[
i
].
pthread_dlsch_td
,
NULL
,
nr_
dlsch_decoding_2thread0
,
rtd
);
//thread 2
pthread_mutex_init
(
&
UE
->
proc
.
proc_rxtx
[
i
].
mutex_dlsch_td1
,
NULL
);
pthread_cond_init
(
&
UE
->
proc
.
proc_rxtx
[
i
].
cond_dlsch_td1
,
NULL
);
pthread_create
(
&
UE
->
proc
.
proc_rxtx
[
i
].
pthread_dlsch_td1
,
NULL
,
dlsch_decoding_2thread1
,
rtd
);
pthread_create
(
&
UE
->
proc
.
proc_rxtx
[
i
].
pthread_dlsch_td1
,
NULL
,
nr_
dlsch_decoding_2thread1
,
rtd
);
#endif
#ifdef UE_SLOT_PARALLELISATION
...
...
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