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canghaiwuhen
OpenXG-RAN
Commits
973a0795
Commit
973a0795
authored
Jun 17, 2019
by
Hongzhi Wang
Browse files
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Plain Diff
update ue dlsch decoding multi-threading
parent
08e91003
Changes
7
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Showing
7 changed files
with
245 additions
and
794 deletions
+245
-794
executables/nr-ue.c
executables/nr-ue.c
+6
-0
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
+232
-788
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
+1
-1
openair1/PHY/defs_common.h
openair1/PHY/defs_common.h
+1
-0
openair1/PHY/defs_nr_UE.h
openair1/PHY/defs_nr_UE.h
+3
-3
openair1/PHY/thread_NR_UE.h
openair1/PHY/thread_NR_UE.h
+1
-1
openair1/SCHED_NR_UE/defs.h
openair1/SCHED_NR_UE/defs.h
+1
-1
No files found.
executables/nr-ue.c
View file @
973a0795
...
...
@@ -742,6 +742,7 @@ void init_UE(int nb_inst) {
int
inst
;
NR_UE_MAC_INST_t
*
mac_inst
;
pthread_t
threads
[
nb_inst
];
pthread_t
dlsch0_threads
;
for
(
inst
=
0
;
inst
<
nb_inst
;
inst
++
)
{
PHY_VARS_NR_UE
*
UE
=
PHY_vars_UE_g
[
inst
][
0
];
...
...
@@ -763,6 +764,11 @@ void init_UE(int nb_inst) {
mac_inst
->
initial_bwp_ul
.
cyclic_prefix
=
UE
->
frame_parms
.
Ncp
;
LOG_I
(
PHY
,
"Intializing UE Threads for instance %d (%p,%p)...
\n
"
,
inst
,
PHY_vars_UE_g
[
inst
],
PHY_vars_UE_g
[
inst
][
0
]);
threadCreate
(
&
threads
[
inst
],
UE_thread
,
(
void
*
)
UE
,
"UEthread"
,
-
1
,
OAI_PRIORITY_RT_MAX
);
#ifdef UE_DLSCH_PARALLELISATION
threadCreate
(
&
dlsch0_threads
,
dlsch_thread
,
(
void
*
)
UE
,
"DLthread"
,
-
1
,
OAI_PRIORITY_RT_MAX
-
1
);
#endif
}
printf
(
"UE threads created by %ld
\n
"
,
gettid
());
...
...
openair1/PHY/NR_UE_TRANSPORT/nr_dlsch_decoding.c
View file @
973a0795
...
...
@@ -49,6 +49,9 @@
static
uint64_t
nb_total_decod
=
0
;
static
uint64_t
nb_error_decod
=
0
;
notifiedFIFO_t
freeBlocks
;
notifiedFIFO_elt_t
*
msgToPush
;
//extern double cpuf;
void
free_nr_ue_dlsch
(
NR_UE_DLSCH_t
*
dlsch
)
...
...
@@ -686,11 +689,10 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
uint32_t
G
;
uint32_t
ret
,
offset
;
//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
;
uint32_t
r
,
r_offset
=
0
,
Kr
=
8424
,
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
;
int
Cby2
;
int32_t
no_iteration_ldpc
,
length_dec
;
/*uint8_t C;
uint8_t Qm;
uint8_t Nl;
...
...
@@ -711,16 +713,19 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
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
;
uint16_t
nb_rb
=
30
;
double
Coderate
=
0
.
0
;
nfapi_nr_config_request_t
*
cfg
=
&
phy_vars_ue
->
nrUE_config
;
uint8_t
dmrs_type
=
cfg
->
pdsch_config
.
dmrs_type
.
value
;
uint8_t
nb_re_dmrs
=
(
dmrs_type
==
NFAPI_NR_DMRS_TYPE1
)
?
6
:
4
;
uint16_t
length_dmrs
=
1
;
//cfg->pdsch_config.dmrs_max_length.value;
uint32_t
i
,
j
;
//uint32_t k;
__m128i
*
pv
=
(
__m128i
*
)
&
z
;
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
__m128i
*
pv
=
(
__m128i
*
)
&
z
;
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
notifiedFIFO_t
nf
;
initNotifiedFIFO
(
&
nf
);
if
(
!
dlsch_llr
)
{
...
...
@@ -766,7 +771,7 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
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
A
=
harq_process
->
TBS
;
ret
=
dlsch
->
max_ldpc_iterations
;
...
...
@@ -774,6 +779,9 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
G
=
harq_process
->
G
;
LOG_I
(
PHY
,
"DLSCH Decoding main, harq_pid %d TBS %d G %d mcs %d Nl %d nb_symb_sch %d nb_rb %d
\n
"
,
harq_pid
,
A
,
G
,
harq_process
->
mcs
,
harq_process
->
Nl
,
nb_symb_sch
,
nb_rb
);
proc
->
decoder_main_available
=
1
;
proc
->
decoder_thread_available
=
0
;
proc
->
decoder_thread_available1
=
0
;
...
...
@@ -796,28 +804,43 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
}
kb
=
harq_process
->
K
/
harq_process
->
Z
;
if
(
kb
==
22
){
p_decParams
->
BG
=
1
;
p_decParams
->
R
=
13
;
kc
=
68
;
}
else
{
p_decParams
->
BG
=
2
;
p_decParams
->
R
=
13
;
kc
=
52
;
}
Coderate
=
(
float
)
A
/
(
float
)
G
;
if
((
A
<=
292
)
||
((
A
<=
3824
)
&&
(
Coderate
<=
0
.
6667
))
||
Coderate
<=
0
.
25
)
{
p_decParams
->
BG
=
2
;
if
(
Coderate
<
0
.
3333
){
p_decParams
->
R
=
15
;
kc
=
52
;
}
else
if
(
Coderate
<
0
.
6667
){
p_decParams
->
R
=
13
;
kc
=
32
;
}
else
{
p_decParams
->
R
=
23
;
kc
=
17
;
}
}
else
{
p_decParams
->
BG
=
1
;
if
(
Coderate
<
0
.
6667
){
p_decParams
->
R
=
13
;
kc
=
68
;
}
else
if
(
Coderate
<
0
.
8889
){
p_decParams
->
R
=
23
;
kc
=
35
;
}
else
{
p_decParams
->
R
=
89
;
kc
=
27
;
}
}
p_decParams
->
numMaxIter
=
2
;
Kr
=
p_decParams
->
Z
*
kb
;
p_decParams
->
outMode
=
0
;
//printf("coderate %f kc %d \n", Coderate, kc)
;
p_decParams
->
numMaxIter
=
dlsch
->
max_ldpc_iterations
;
p_decParams
->
outMode
=
0
;
/*
else {
printf("dlsch_decoding.c: Ndi>0 not checked yet!!\n");
return(max_ldpc_iterations);
}
*/
err_flag
=
0
;
r_offset
=
0
;
...
...
@@ -841,13 +864,39 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
printf
(
"Segmentation: C %d, K %d
\n
"
,
harq_process
->
C
,
harq_process
->
K
);
#endif
notifiedFIFO_elt_t
*
res
;
opp_enabled
=
1
;
if
(
harq_process
->
C
>
1
)
{
// wakeup worker if more than 1 segment
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] error locking mutex for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
if
(
harq_process
->
C
>
1
)
{
for
(
int
nb_seg
=
1
;
nb_seg
<
harq_process
->
C
;
nb_seg
++
){
printf
(
"mthread pool C >1
\n
"
);
displayList
(
&
Tpool
->
incomingFifo
);
if
(
(
res
=
tryPullTpool
(
&
nf
,
Tpool
))
!=
NULL
)
{
printf
(
"mthread pool non null
\n
"
);
pushNotifiedFIFO_nothreadSafe
(
&
freeBlocks
,
res
);
}
printf
(
"mthread after push
\n
"
);
displayList
(
&
freeBlocks
);
AssertFatal
((
msgToPush
=
pullNotifiedFIFO_nothreadSafe
(
&
freeBlocks
))
!=
NULL
,
"chained list failure"
);
nr_rxtx_thread_data_t
*
curMsg
=
(
nr_rxtx_thread_data_t
*
)
NotifiedFifoData
(
msgToPush
);
curMsg
->
UE
=
phy_vars_ue
;
memset
(
&
curMsg
->
proc
,
0
,
sizeof
(
curMsg
->
proc
));
printf
(
"mthread frame %d slot %d
\n
"
,
proc
->
frame_rx
,
proc
->
nr_tti_rx
);
curMsg
->
proc
.
frame_rx
=
proc
->
frame_rx
;
curMsg
->
proc
.
nr_tti_rx
=
proc
->
nr_tti_rx
;
curMsg
->
proc
.
num_seg
=
nb_seg
;
curMsg
->
proc
.
eNB_id
=
eNB_id
;
curMsg
->
proc
.
harq_pid
=
harq_pid
;
curMsg
->
proc
.
llr8_flag
=
llr8_flag
;
printf
(
"mthread after pull"
);
msgToPush
->
key
=
nb_seg
;
pushTpool
(
Tpool
,
msgToPush
);
printf
(
"mthread after pushTpool
\n
"
);
displayList
(
&
Tpool
->
incomingFifo
);
/*Qm= harq_process->Qm;
Nl=harq_process->Nl;
r_thread = harq_process->C/2-1;
...
...
@@ -857,7 +906,6 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
GpmodC = Gp%C;
if (r_thread < (C-(GpmodC)))
Er = Nl*Qm * (Gp/C);
else
...
...
@@ -865,108 +913,10 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
printf("mthread Er %d\n", Er);
printf("mthread instance_cnt_dlsch_td %d\n", proc->instance_cnt_dlsch_td);*/
proc
->
instance_cnt_dlsch_td
++
;
proc
->
eNB_id
=
eNB_id
;
proc
->
harq_pid
=
harq_pid
;
proc
->
llr8_flag
=
llr8_flag
;
//proc->r[0] = 1;
if
(
proc
->
instance_cnt_dlsch_td
==
0
)
{
LOG_D
(
PHY
,
"unblock dlsch td processing thread blocked on instance_cnt_dlsch_td : %d
\n
"
,
proc
->
instance_cnt_dlsch_td
);
if
(
pthread_cond_signal
(
&
proc
->
cond_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] ERROR pthread_cond_signal for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] error unlocking mutex for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
}
else
{
LOG_E
(
PHY
,
"[SCHED][UE %d] UE dlsch td thread busy (IC %d)!!
\n
"
,
phy_vars_ue
->
Mod_id
,
proc
->
instance_cnt_dlsch_td
);
if
(
proc
->
instance_cnt_dlsch_td
>
4
)
exit_fun
(
"instance_cnt_dlsch_td > 4"
);
}
//AssertFatal(pthread_cond_signal(&proc->cond_slot1_dl_processing) ==0 ,"");
AssertFatal
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td
)
==
0
,
""
);
if
(
harq_process
->
C
>
2
)
{
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] error locking mutex for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
proc
->
instance_cnt_dlsch_td1
++
;
proc
->
eNB_id
=
eNB_id
;
proc
->
harq_pid
=
harq_pid
;
proc
->
llr8_flag
=
llr8_flag
;
// proc->Er = Er;
if
(
proc
->
instance_cnt_dlsch_td1
==
0
)
{
LOG_D
(
PHY
,
"unblock slot1 dl processing thread blocked on instance_cnt_dlsch_td : %d
\n
"
,
proc
->
instance_cnt_dlsch_td1
);
if
(
pthread_cond_signal
(
&
proc
->
cond_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] ERROR pthread_cond_signal for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE %d][Slot0] error unlocking mutex for UE dlsch td
\n
"
,
phy_vars_ue
->
Mod_id
);
exit_fun
(
"nothing to add"
);
}
}
else
{
LOG_E
(
PHY
,
"[SCHED][UE %d] UE dlsch td thread 1 busy (IC %d)!!
\n
"
,
phy_vars_ue
->
Mod_id
,
proc
->
instance_cnt_dlsch_td1
);
if
(
proc
->
instance_cnt_dlsch_td1
>
4
)
exit_fun
(
"instance_cnt_dlsch_td1 > 4"
);
}
AssertFatal
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td1
)
==
0
,
""
);
}
/*
if (pthread_mutex_timedlock(&proc->mutex_td,&wait) != 0) {
printf("[eNB] ERROR pthread_mutex_lock for TD thread (IC %d)\n", proc->instance_cnt_td);
exit_fun( "error locking mutex_fep" );
return -1;
}
if (proc->instance_cnt_td==0) {
printf("[UE] TD thread busy\n");
exit_fun("TD thread busy");
pthread_mutex_unlock( &proc->mutex_td );
return -1;
}
++proc->instance_cnt_td;
proc->tdp.UE = phy_vars_ue;
proc->tdp.eNB_id = eNB_id;
proc->tdp.harq_pid = harq_pid;
proc->tdp.llr8_flag = llr8_flag;
printf("----- 2thread llr flag %d tdp flag %d\n",llr8_flag, proc->tdp.llr8_flag);
// wakeup worker to do second half segments
if (pthread_cond_signal(&proc->cond_td) != 0) {
printf("[UE] ERROR pthread_cond_signal for td thread exit\n");
exit_fun( "ERROR pthread_cond_signal" );
return (1+dlsch->last_iteration_cnt);
}
pthread_mutex_unlock( &proc->mutex_td );*/
Cby2
=
1
;
//harq_process->C/2;
}
//proc->decoder_main_available = 1;
}
else
{
Cby2
=
1
;
}
//for (r=0; r<Cby2; r++) {
r
=
0
;
if
(
r
==
0
)
r_offset
=
0
;
...
...
@@ -1067,45 +1017,46 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
memset
(
harq_process
->
c
[
r
],
0
,
Kr_bytes
);
// printf("done\n");
if
(
harq_process
->
C
==
1
)
if
(
harq_process
->
C
==
1
)
{
crc_type
=
CRC24_A
;
else
length_dec
=
harq_process
->
B
;
}
else
{
crc_type
=
CRC24_B
;
length_dec
=
(
harq_process
->
B
+
24
*
harq_process
->
C
)
/
harq_process
->
C
;
}
//#ifndef __AVX2__
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",
LOG_I(PHY, "
LDPC
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",
Kr,r,harq_process->C,harq_process->nb_rb,crc_type,A,harq_process->TBS,
harq_process->B,harq_process->mcs,harq_process->Qm,harq_process->rvidx,harq_process->round,dlsch->max_ldpc_iterations);
*/
if
(
llr8_flag
)
{
AssertFatal
(
Kr
>=
256
,
"turbo algo issue Kr=%d cb_cnt=%d C=%d nbRB=%d TBSInput=%d TBSHarq=%d TBSplus24=%d mcs=%d Qm=%d RIV=%d round=%d
\n
"
,
Kr
,
r
,
harq_process
->
C
,
harq_process
->
nb_rb
,
A
,
harq_process
->
TBS
,
harq_process
->
B
,
harq_process
->
mcs
,
harq_process
->
Qm
,
harq_process
->
rvidx
,
harq_process
->
round
);
}
#if UE_TIMING_TRACE
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
);
LOG_D
(
PHY
,
"mthread AbsSubframe %d.%d Start
LDPC
segment %d/%d
\n
"
,
frame
%
1024
,
nr_tti_rx
,
r
,
harq_process
->
C
-
1
);
for
(
int
cnt
=
0
;
cnt
<
(
kc
-
2
)
*
p_decParams
->
Z
;
cnt
++
){
/*
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
));
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
+
((
2
*
p_decParams
->
Z
)
>>
3
)
;
i
++
,
j
++
)
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
;
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
harq_process
->
d
[
r
]
[
8
*
j
]));
}
for
(
i
=
Kr_bytes
+
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
Kr_bytes
;
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
for
(
i
=
Kr_bytes
,
j
=
K_bytes_F
-
((
2
*
p_decParams
->
Z
)
>>
3
)
;
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
harq_process
->
d
[
r
]
[
8
*
j
]));
}
for
(
i
=
0
,
j
=
0
;
j
<
((
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
...
...
@@ -1128,8 +1079,8 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
ret
=
2
;
}
if
(
check_crc
(
llrProcBuf
,
harq_process
->
B
,
harq_process
->
F
,
crc_type
))
{
printf
(
"
CRC OK
\n
"
);
if
(
check_crc
(
(
uint8_t
*
)
llrProcBuf
,
length_dec
,
harq_process
->
F
,
crc_type
))
{
printf
(
"
Segment %d CRC OK
\n
"
,
r
);
ret
=
2
;
}
else
{
...
...
@@ -1245,7 +1196,7 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
printf("C %d\n",harq_process->C);
*/
uint32_t
wait
=
0
;
if
(
harq_process
->
C
==
2
){
/*
if (harq_process->C==2){
while((proc->decoder_thread_available == 0) )
{
usleep(1);
...
...
@@ -1258,15 +1209,21 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
usleep(1);
wait++;
}
}
}*/
/*notifiedFIFO_elt_t *res1=tryPullTpool(&nf, Tpool);
if (!res1) {
printf("mthread trypull null\n");
usleep(1);
wait++;
}*/
proc
->
decoder_main_available
=
0
;
Kr
=
harq_process
->
K
;
//to check if same K in all segments
Kr_bytes
=
Kr
>>
3
;
for
(
r
=
0
;
r
<
harq_process
->
C
;
r
++
)
{
Kr
=
harq_process
->
K
;
//to check if same K in all segments
Kr_bytes
=
Kr
>>
3
;
memcpy
(
harq_process
->
b
+
offset
,
harq_process
->
c
[
r
],
Kr_bytes
-
-
(
harq_process
->
F
>>
3
)
-
((
harq_process
->
C
>
1
)
?
3
:
0
));
...
...
@@ -1286,27 +1243,20 @@ uint32_t nr_dlsch_decoding_mthread(PHY_VARS_NR_UE *phy_vars_ue,
dlsch
->
last_iteration_cnt
=
ret
;
//proc->decoder_thread_available = 0;
//proc->decoder_main_available = 0;
//wait for worker to finish
//wait_on_busy_condition(&proc->mutex_td,&proc->cond_td,&proc->instance_cnt_dlsch td,"dlsch td thread");
//return( (ret>proc->tdp.ret) ? ret : proc->tdp.ret );
return
(
ret
);
}
#endif
#ifdef UE_DLSCH_PARALLELISATION
#define FIFO_PRIORITY 39
void
*
nr_dlsch_decoding_2thread0
(
void
*
arg
)
void
*
nr_dlsch_decoding_process
(
void
*
arg
)
{
static
__thread
int
UE_dlsch_td_retval
;
struct
nr_rxtx_thread_data
*
rtd
=
arg
;
UE_nr_rxtx_proc_t
*
proc
=
rtd
->
proc
;
PHY_VARS_NR_UE
*
phy_vars_ue
=
rtd
->
UE
;
nr_rxtx_thread_data_t
*
rxtxD
=
(
nr_rxtx_thread_data_t
*
)
arg
;
UE_nr_rxtx_proc_t
*
proc
=
&
rxtxD
->
proc
;
PHY_VARS_NR_UE
*
phy_vars_ue
=
rxtxD
->
UE
;
NR_DL_FRAME_PARMS
*
frame_parms
=
&
phy_vars_ue
->
frame_parms
;
int
llr8_flag1
;
int32_t
no_iteration_ldpc
;
int32_t
no_iteration_ldpc
,
length_dec
;
t_nrLDPC_dec_params
decParams
;
t_nrLDPC_dec_params
*
p_decParams
=
&
decParams
;
t_nrLDPC_time_stats
procTime
;
...
...
@@ -1322,6 +1272,7 @@ void *nr_dlsch_decoding_2thread0(void *arg)
uint8_t
Ilbrm
=
0
;
uint32_t
Tbslbrm
=
950984
;
uint16_t
nb_rb
=
30
;
//to update
double
Coderate
=
0
.
0
;
uint16_t
nb_symb_sch
=
12
;
uint8_t
nb_re_dmrs
=
6
;
uint16_t
length_dmrs
=
1
;
...
...
@@ -1333,23 +1284,10 @@ void *nr_dlsch_decoding_2thread0(void *arg)
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
proc
->
instance_cnt_dlsch_td
=-
1
;
proc
->
nr_tti_rx
=
proc
->
sub_frame_start
;
//
proc->nr_tti_rx=proc->sub_frame_start;
proc
->
decoder_thread_available
=
0
;
proc
->
decoder_thread_available
=
1
;
char
threadname
[
256
];
sprintf
(
threadname
,
"UE_thread_dlsch_td_%d"
,
proc
->
sub_frame_start
);
cpu_set_t
cpuset
;
CPU_ZERO
(
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
0
&&
threads
.
dlsch_td_one
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_one
,
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
1
&&
threads
.
dlsch_td_two
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_two
,
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
2
&&
threads
.
dlsch_td_three
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_three
,
&
cpuset
);
#if UE_TIMING_TRACE
time_stats_t
*
dlsch_rate_unmatching_stats
=&
phy_vars_ue
->
dlsch_rate_unmatching_stats
;
...
...
@@ -1367,45 +1305,21 @@ void *nr_dlsch_decoding_2thread0(void *arg)
uint8_t
Nl
;
//uint32_t Er;
init_thread
(
900000
,
1000000
,
FIFO_PRIORITY
-
1
,
&
cpuset
,
threadname
);
while
(
!
oai_exit
)
{
//proc->decoder_thread_available = 1;
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error locking mutex for UE dlsch td
\n
"
);
exit_fun
(
"nothing to add"
);
}
while
(
proc
->
instance_cnt_dlsch_td
<
0
)
{
// most of the time, the thread is waiting here
pthread_cond_wait
(
&
proc
->
cond_dlsch_td
,
&
proc
->
mutex_dlsch_td
);
}
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error unlocking mutex for UE dlsch_td
\n
"
);
exit_fun
(
"nothing to add"
);
}
int
eNB_id
=
proc
->
eNB_id
;
int
harq_pid
=
proc
->
harq_pid
;
llr8_flag1
=
proc
->
llr8_flag
;
int
frame
=
proc
->
frame_rx
;
int
slot
=
proc
->
nr_tti_rx
;
r
=
proc
->
num_seg
;
uint32_t
wait
=
0
;
while
(
proc
->
decoder_main_available
==
0
)
{
usleep
(
1
);
wait
++
;
}
NR_UE_DLSCH_t
*
dlsch
=
phy_vars_ue
->
dlsch
[
phy_vars_ue
->
current_thread_id
[
slot
]][
eNB_id
][
0
];
NR_DL_UE_HARQ_t
*
harq_process
=
dlsch
->
harq_processes
[
harq_pid
];
short
*
dlsch_llr
=
phy_vars_ue
->
pdsch_vars
[
phy_vars_ue
->
current_thread_id
[
slot
]][
eNB_id
]
->
llr
[
0
];
//printf("2thread0 llr flag %d tdp flag %d\n",llr8_flag1, tdp->llr8_flag);
p_nrLDPC_procBuf
=
harq_process
->
p_nrLDPC_procBuf
[
r
];
nb_symb_sch
=
harq_process
->
nb_symbols
;
printf
(
"dlsch decoding process frame %d slot %d segment %d r %d nb symb %d
\n
"
,
frame
,
proc
->
nr_tti_rx
,
proc
->
num_seg
,
r
,
harq_process
->
nb_symbols
);
//proc->decoder_thread_available = 0;
//PHY_VARS_NR_UE *phy_vars_ue = tdp->UE;
int
eNB_id
=
proc
->
eNB_id
;
int
harq_pid
=
proc
->
harq_pid
;
llr8_flag1
=
proc
->
llr8_flag
;
//r_offset = proc->Er;
//UE_rxtx_proc_t *proc = tdp->proc;
int
frame
=
proc
->
frame_rx
;
int
subframe
=
proc
->
nr_tti_rx
;
NR_UE_DLSCH_t
*
dlsch
=
phy_vars_ue
->
dlsch
[
phy_vars_ue
->
current_thread_id
[
subframe
]][
eNB_id
][
0
];
NR_DL_UE_HARQ_t
*
harq_process
=
dlsch
->
harq_processes
[
harq_pid
];
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);
p_nrLDPC_procBuf
=
harq_process
->
p_nrLDPC_procBuf
[
1
];
/*
if (nb_rb > frame_parms->N_RB_DL) {
...
...
@@ -1428,10 +1342,14 @@ void *nr_dlsch_decoding_2thread0(void *arg)
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
;
LOG_I
(
PHY
,
"DLSCH Decoding process, harq_pid %d TBS %d G %d mcs %d Nl %d nb_symb_sch %d nb_rb %d
\n
"
,
harq_pid
,
A
,
G
,
harq_process
->
mcs
,
harq_process
->
Nl
,
nb_symb_sch
,
nb_rb
);
if
(
harq_process
->
round
==
0
)
{
// This is a new packet, so compute quantities regarding segmentation
...
...
@@ -1448,20 +1366,40 @@ void *nr_dlsch_decoding_2thread0(void *arg)
}
kb
=
harq_process
->
K
/
harq_process
->
Z
;
if
(
kb
==
22
){
p_decParams
->
BG
=
1
;
Coderate
=
(
float
)
A
/
(
float
)
G
;
if
((
A
<=
292
)
||
((
A
<=
3824
)
&&
(
Coderate
<=
0
.
6667
))
||
Coderate
<=
0
.
25
)
{
p_decParams
->
BG
=
2
;
if
(
Coderate
<
0
.
3333
){
p_decParams
->
R
=
15
;
kc
=
52
;
}
else
if
(
Coderate
<
0
.
6667
){
p_decParams
->
R
=
13
;
kc
=
68
;
kc
=
32
;
}
else
{
p_decParams
->
BG
=
2
;
else
{
p_decParams
->
R
=
23
;
kc
=
17
;
}
}
else
{
p_decParams
->
BG
=
1
;
if
(
Coderate
<
0
.
6667
){
p_decParams
->
R
=
13
;
kc
=
52
;
}
kc
=
68
;
}
else
if
(
Coderate
<
0
.
8889
){
p_decParams
->
R
=
23
;
kc
=
35
;
}
else
{
p_decParams
->
R
=
89
;
kc
=
27
;
}
}
p_decParams
->
numMaxIter
=
2
;
Kr
=
p_decParams
->
Z
*
kb
;
p_decParams
->
numMaxIter
=
dlsch
->
max_ldpc_iterations
;
p_decParams
->
outMode
=
0
;
/*
...
...
@@ -1511,8 +1449,9 @@ void *nr_dlsch_decoding_2thread0(void *arg)
// 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);
//
r=1; //(harq_process->C/2);
r_offset
=
r
*
r_offset
;
Kr
=
harq_process
->
K
;
Kr_bytes
=
Kr
>>
3
;
...
...
@@ -1530,8 +1469,10 @@ void *nr_dlsch_decoding_2thread0(void *arg)
harq_process
->
w
[
r
],
dlsch_llr
+
r_offset
);
//for (int i =0; i<16; i++)
// printf("rx output deinterleaving w[%d]= %d r_offset %d\n", i,harq_process->w[r][i], r_offset);
#ifdef DEBUG_DLSCH_DECODING
for
(
int
i
=
0
;
i
<
16
;
i
++
)
printf
(
"rx output thread 0 deinterleaving w[%d]= %d r_offset %d
\n
"
,
i
,
harq_process
->
w
[
r
][
i
],
r_offset
);
#endif
#if UE_TIMING_TRACE
stop_meas
(
dlsch_deinterleaving_stats
);
...
...
@@ -1596,14 +1537,15 @@ void *nr_dlsch_decoding_2thread0(void *arg)
// printf("Clearing c, %p\n",harq_process->c[r]);
memset
(
harq_process
->
c
[
r
],
0
,
Kr_bytes
);
// printf("done\n");
if
(
harq_process
->
C
==
1
)
if
(
harq_process
->
C
==
1
){
crc_type
=
CRC24_A
;
else
length_dec
=
harq_process
->
B
;
}
else
{
crc_type
=
CRC24_B
;
length_dec
=
(
harq_process
->
B
+
24
*
harq_process
->
C
)
/
harq_process
->
C
;
}
#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",
...
...
@@ -1627,29 +1569,37 @@ void *nr_dlsch_decoding_2thread0(void *arg)
//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
++
)
for
(
i
=
((
2
*
p_decParams
->
Z
)
>>
3
),
j
=
0
;
i
<
K_bytes_F
;
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
inv_d
[
8
*
j
]));
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
harq_process
->
d
[
r
]
[
8
*
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
<
((
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
for
(
i
=
Kr_bytes
,
j
=
K_bytes_F
-
((
2
*
p_decParams
->
Z
)
>>
3
);
i
<
((
kc
*
p_decParams
->
Z
)
>>
3
);
i
++
,
j
++
)
{
pv
[
i
]
=
_mm_loadu_si128
((
__m128i
*
)(
&
harq_process
->
d
[
r
][
8
*
j
]));
}
}
for
(
i
=
0
,
j
=
0
;
j
<
((
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
}
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
(
int8_t
*
)
&
pl
[
0
],
llrProcBuf
,
p_nrLDPC_procBuf
,
p_procTime
);
// Fixme: correct type is unsigned, but nrLDPC_decoder and all called behind use signed int
if
(
check_crc
((
uint8_t
*
)
llrProcBuf
,
length_dec
,
harq_process
->
F
,
crc_type
))
{
printf
(
"Segment %d CRC OK
\n
"
,
r
);
ret
=
2
;
}
else
{
printf
(
"CRC NOK
\n
"
);
ret
=
1
+
dlsch
->
max_ldpc_iterations
;
}
if
(
no_iteration_ldpc
>
10
)
printf
(
"Error number of iteration LPDC %d
\n
"
,
no_iteration_ldpc
);
//else
...
...
@@ -1691,552 +1641,46 @@ void *nr_dlsch_decoding_2thread0(void *arg)
}
//}
/*int32_t frame_rx_prev = frame;
int32_t subframe_rx_prev = subframe - 1;
if (subframe_rx_prev < 0) {
frame_rx_prev--;
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
proc
->
decoder_thread_available
=
1
;
//proc->decoder_main_available = 0;
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);
void
*
dlsch_thread
(
void
*
arg
)
{
//this thread should be over the processing thread to keep in real time
PHY_VARS_NR_UE
*
UE
=
(
PHY_VARS_NR_UE
*
)
arg
;
notifiedFIFO_t
nf
;
initNotifiedFIFO
(
&
nf
);
int
nbDlProcessing
=
0
;
initNotifiedFIFO_nothreadSafe
(
&
freeBlocks
);
}*/
for
(
int
i
=
0
;
i
<
RX_NB_TH_DL
+
1
;
i
++
)
pushNotifiedFIFO_nothreadSafe
(
&
freeBlocks
,
newNotifiedFIFO_elt
(
sizeof
(
nr_rxtx_thread_data_t
),
0
,
&
nf
,
nr_dlsch_decoding_process
));
printf
(
"dlsch_thread
\n
"
);
displayList
(
&
freeBlocks
);
// Reassembly of Transport block here
offset = 0;
while
(
!
oai_exit
)
{
/*
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;
notifiedFIFO_elt_t
*
res
;
Kr_bytes = Kr>>3;
while
(
nbDlProcessing
>=
RX_NB_TH_DL
)
{
if
(
(
res
=
tryPullTpool
(
&
nf
,
Tpool
))
!=
NULL
)
{
printf
(
"dlsch thread trypull non null
\n
"
);
nr_rxtx_thread_data_t
*
tmp
=
(
nr_rxtx_thread_data_t
*
)
res
->
msgData
;
nbDlProcessing
--
;
pushNotifiedFIFO_nothreadSafe
(
&
freeBlocks
,
res
);
}
// 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));
usleep
(
200
);
}
}
dlsch->last_iteration_cnt = ret;
//return(ret)
;
}
#endif
nbDlProcessing
++
;
//msgToPush->key=0;
//pushTpool(Tpool, msgToPush);
proc
->
decoder_thread_available
=
1
;
//proc->decoder_main_available = 0;
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error locking mutex for UE RXTX
\n
"
);
exit_fun
(
"noting to add"
);
}
proc
->
instance_cnt_dlsch_td
--
;
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error unlocking mutex for UE td1
\n
"
);
exit_fun
(
"noting to add"
);
}
}
}
// while !oai_exit
// thread finished
free
(
arg
);
return
&
UE_dlsch_td_retval
;
}
#endif
#ifdef UE_DLSCH_PARALLELISATION
#define FIFO_PRIORITY 39
void
*
nr_dlsch_decoding_2thread1
(
void
*
arg
)
{
static
__thread
int
UE_dlsch_td_retval1
;
struct
nr_rxtx_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
;
t_nrLDPC_dec_params
*
p_decParams
=
&
decParams
;
t_nrLDPC_time_stats
procTime
;
t_nrLDPC_time_stats
*
p_procTime
=&
procTime
;
t_nrLDPC_procBuf
*
p_nrLDPC_procBuf
;
int8_t
llrProcBuf
[
OAI_LDPC_MAX_NUM_LLR
]
__attribute__
((
aligned
(
32
)));
int16_t
z
[
68
*
384
];
int8_t
l
[
68
*
384
];
//__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;
__m128i
*
pv
=
(
__m128i
*
)
&
z
;
__m128i
*
pl
=
(
__m128i
*
)
&
l
;
proc
->
instance_cnt_dlsch_td1
=-
1
;
proc
->
nr_tti_rx
=
proc
->
sub_frame_start
;
printf
(
"start thread 1
\n
"
);
proc
->
decoder_thread_available1
=
0
;
char
threadname
[
256
];
sprintf
(
threadname
,
"UE_thread_dlsch_td1_%d"
,
proc
->
sub_frame_start
);
cpu_set_t
cpuset
;
CPU_ZERO
(
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
0
&&
threads
.
dlsch_td_one
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_one
,
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
1
&&
threads
.
dlsch_td_two
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_two
,
&
cpuset
);
if
(
(
proc
->
sub_frame_start
+
1
)
%
RX_NB_TH
==
2
&&
threads
.
dlsch_td_three
!=
-
1
)
CPU_SET
(
threads
.
dlsch_td_three
,
&
cpuset
);
#if UE_TIMING_TRACE
time_stats_t
*
dlsch_rate_unmatching_stats
=&
phy_vars_ue
->
dlsch_rate_unmatching_stats
;
time_stats_t
*
dlsch_turbo_decoding_stats
=&
phy_vars_ue
->
dlsch_turbo_decoding_stats
;
time_stats_t
*
dlsch_deinterleaving_stats
=&
phy_vars_ue
->
dlsch_deinterleaving_stats
;
#endif
uint32_t
A
,
E
;
uint32_t
G
;
uint32_t
ret
,
offset
;
uint32_t
r
,
r_offset
=
0
,
Kr
,
Kr_bytes
,
err_flag
=
0
,
K_bytes_F
;
uint8_t
crc_type
;
uint8_t
C
,
Cprime
;
uint8_t
Qm
;
uint8_t
Nl
;
//uint32_t Er;
init_thread
(
900000
,
1000000
,
FIFO_PRIORITY
-
1
,
&
cpuset
,
threadname
);
printf
(
"2thread1 oai_exit %d
\n
"
,
oai_exit
);
while
(
!
oai_exit
)
{
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error locking mutex for UE dlsch td
\n
"
);
exit_fun
(
"nothing to add"
);
}
while
(
proc
->
instance_cnt_dlsch_td1
<
0
)
{
// most of the time, the thread is waiting here
pthread_cond_wait
(
&
proc
->
cond_dlsch_td1
,
&
proc
->
mutex_dlsch_td1
);
}
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error unlocking mutex for UE dlsch_td
\n
"
);
exit_fun
(
"nothing to add"
);
}
//printf("2thread1 main available %d\n", proc->decoder_main_available);
uint32_t
wait
=
0
;
while
(
proc
->
decoder_main_available
==
0
)
{
usleep
(
1
);
wait
++
;
}
//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
;
llr8_flag1
=
proc
->
llr8_flag
;
//r_offset = proc->Er;
//UE_rxtx_proc_t *proc = tdp->proc;
int
frame
=
proc
->
frame_rx
;
int
subframe
=
proc
->
nr_tti_rx
;
NR_UE_DLSCH_t
*
dlsch
=
phy_vars_ue
->
dlsch
[
phy_vars_ue
->
current_thread_id
[
subframe
]][
eNB_id
][
0
];
NR_DL_UE_HARQ_t
*
harq_process
=
dlsch
->
harq_processes
[
harq_pid
];
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);
//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);
p_nrLDPC_procBuf
=
harq_process
->
p_nrLDPC_procBuf
[
2
];
/*
if (nb_rb > frame_parms->N_RB_DL) {
printf("dlsch_decoding.c: Illegal nb_rb %d\n",nb_rb);
return(max_ldpc_iterations);
}*/
/*harq_pid = dlsch->current_harq_pid[phy_vars_ue->current_thread_id[subframe]];
if (harq_pid >= 8) {
printf("dlsch_decoding.c: Illegal harq_pid %d\n",harq_pid);
return(max_ldpc_iterations);
}
*/
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);
//printf("DLSCH Decoding, A %d harq_pid %d G %d\n",A, harq_pid,harq_process->G);
if
(
harq_process
->
round
==
0
)
{
// This is a new packet, so compute quantities regarding segmentation
harq_process
->
B
=
A
+
24
;
nr_segmentation
(
NULL
,
NULL
,
harq_process
->
B
,
&
harq_process
->
C
,
&
harq_process
->
K
,
&
harq_process
->
Z
,
&
harq_process
->
F
);
p_decParams
->
Z
=
harq_process
->
Z
;
}
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
*
kb
;
p_decParams
->
outMode
=
0
;
/*
else {
printf("dlsch_decoding.c: Ndi>0 not checked yet!!\n");
return(max_ldpc_iterations);
}
*/
err_flag
=
0
;
//r_offset = 0;
/*
unsigned char bw_scaling =1;
switch (frame_parms->N_RB_DL) {
case 106:
bw_scaling =2;
break;
default:
bw_scaling =1;
break;
}
if (harq_process->C > MAX_NUM_DLSCH_SEGMENTS/bw_scaling) {
LOG_E(PHY,"Illegal harq_process->C %d > %d\n",harq_process->C,MAX_NUM_DLSCH_SEGMENTS/bw_scaling);
return((1+dlsch->max_ldpc_iterations));
}*/
#ifdef DEBUG_DLSCH_DECODING
printf
(
"Segmentation: C %d, Cminus %d, Kminus %d, Kplus %d
\n
"
,
harq_process
->
C
,
harq_process
->
Cminus
,
harq_process
->
Kminus
,
harq_process
->
Kplus
);
#endif
opp_enabled
=
1
;
Qm
=
harq_process
->
Qm
;
Nl
=
harq_process
->
Nl
;
//r_thread = harq_process->C/2-1;
C
=
harq_process
->
C
;
Cprime
=
C
;
//assume CBGTI not present
if
(
r
<=
Cprime
-
((
G
/
(
Nl
*
Qm
))
%
Cprime
)
-
1
)
r_offset
=
Nl
*
Qm
*
(
G
/
(
Nl
*
Qm
*
Cprime
));
else
r_offset
=
Nl
*
Qm
*
((
G
/
(
Nl
*
Qm
*
Cprime
))
+
1
);
//printf("sub thread r_offset %d\n", r_offset);
//for (r=(harq_process->C/2); r<harq_process->C; r++) {
r
=
2
;
//(harq_process->C/2);
r_offset
=
r
*
r_offset
;
//printf("thread1 r=%d r_offset %d \n",r, r_offset);
Kr
=
harq_process
->
K
;
Kr_bytes
=
Kr
>>
3
;
K_bytes_F
=
Kr_bytes
-
(
harq_process
->
F
>>
3
);
Tbslbrm
=
nr_compute_tbs
(
28
,
nb_rb
,
frame_parms
->
symbols_per_slot
,
0
,
0
,
harq_process
->
Nl
);
E
=
nr_get_E
(
G
,
harq_process
->
C
,
harq_process
->
Qm
,
harq_process
->
Nl
,
r
);
/*
printf("Subblock deinterleaving, d %p w %p\n",
harq_process->d[r],
harq_process->w);
*/
#if UE_TIMING_TRACE
start_meas
(
dlsch_deinterleaving_stats
);
#endif
nr_deinterleaving_ldpc
(
E
,
harq_process
->
Qm
,
harq_process
->
w
[
r
],
dlsch_llr
+
r_offset
);
//for (int i =0; i<16; i++)
// printf("rx output deinterleaving w[%d]= %d r_offset %d\n", i,harq_process->w[r][i], r_offset);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_deinterleaving_stats
);
#endif
#if UE_TIMING_TRACE
start_meas
(
dlsch_rate_unmatching_stats
);
#endif
#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
"
,
harq_pid
,
r
,
G
,
Kr
*
3
,
harq_process
->
TBS
,
harq_process
->
Qm
,
harq_process
->
nb_rb
,
harq_process
->
Nl
,
harq_process
->
rvidx
,
harq_process
->
round
);
#endif
if
(
nr_rate_matching_ldpc_rx
(
Ilbrm
,
Tbslbrm
,
p_decParams
->
BG
,
p_decParams
->
Z
,
harq_process
->
d
[
r
],
harq_process
->
w
[
r
],
harq_process
->
C
,
harq_process
->
rvidx
,
(
harq_process
->
round
==
0
)
?
1
:
0
,
E
)
==-
1
)
{
#if UE_TIMING_TRACE
stop_meas
(
dlsch_rate_unmatching_stats
);
#endif
LOG_E
(
PHY
,
"dlsch_decoding.c: Problem in rate_matching
\n
"
);
//return(dlsch->max_ldpc_iterations);
}
else
{
#if UE_TIMING_TRACE
stop_meas
(
dlsch_rate_unmatching_stats
);
#endif
}
//for (int i =0; i<16; i++)
// printf("rx output ratematching d[%d]= %d r_offset %d\n", i,harq_process->d[r][i], r_offset);
//r_offset += E;
#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
][
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
][
i
]);
printf
(
"
\n
"
);
#endif
// printf("Clearing c, %p\n",harq_process->c[r]);
memset
(
harq_process
->
c
[
r
],
0
,
Kr_bytes
);
// printf("done\n");
if
(
harq_process
->
C
==
1
)
crc_type
=
CRC24_A
;
else
crc_type
=
CRC24_B
;
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",
Kr,r,harq_process->C,harq_process->nb_rb,crc_type,A,harq_process->TBS,
harq_process->B,harq_process->mcs,harq_process->Qm,harq_process->rvidx,harq_process->round,dlsch->max_ldpc_iterations);
*/
if
(
llr8_flag1
)
{
AssertFatal
(
Kr
>=
256
,
"turbo algo issue Kr=%d cb_cnt=%d C=%d nbRB=%d TBSInput=%d TBSHarq=%d TBSplus24=%d mcs=%d Qm=%d RIV=%d round=%d
\n
"
,
Kr
,
r
,
harq_process
->
C
,
harq_process
->
nb_rb
,
A
,
harq_process
->
TBS
,
harq_process
->
B
,
harq_process
->
mcs
,
harq_process
->
Qm
,
harq_process
->
rvidx
,
harq_process
->
round
);
}
#if UE_TIMING_TRACE
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);
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
=
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
<
((
kc
*
p_decParams
->
Z
)
>>
4
);
i
+=
2
,
j
++
)
{
pl
[
j
]
=
_mm_packs_epi16
(
pv
[
i
],
pv
[
i
+
1
]);
}
no_iteration_ldpc
=
nrLDPC_decoder
(
p_decParams
,
(
int8_t
*
)
&
pl
[
0
],
llrProcBuf
,
p_nrLDPC_procBuf
,
p_procTime
);
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);
for
(
int
m
=
0
;
m
<
Kr
>>
3
;
m
++
)
{
harq_process
->
c
[
r
][
m
]
=
(
uint8_t
)
llrProcBuf
[
m
];
}
/*for (int u=0; u < Kr>>3; u ++)
{
ullrProcBuf[u]= (uint8_t) llrProcBuf[u];
}
printf("output unsigned ullrProcBuf \n");
for (int j=0; j < Kr>>3; j ++)
{
printf(" %d \n", ullrProcBuf[j]);
}
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]);
#if UE_TIMING_TRACE
stop_meas
(
dlsch_turbo_decoding_stats
);
#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);
err_flag
=
1
;
}
//}
/*int32_t frame_rx_prev = frame;
int32_t subframe_rx_prev = subframe - 1;
if (subframe_rx_prev < 0) {
frame_rx_prev--;
subframe_rx_prev += 10;
}
frame_rx_prev = frame_rx_prev%1024;*/
proc
->
decoder_thread_available1
=
1
;
//proc->decoder_main_available = 0;
//printf("2thread1 proc->instance_cnt_dlsch_td1 %d\n", proc->instance_cnt_dlsch_td1);
if
(
pthread_mutex_lock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error locking mutex for UE RXTX
\n
"
);
exit_fun
(
"noting to add"
);
}
proc
->
instance_cnt_dlsch_td1
--
;
if
(
pthread_mutex_unlock
(
&
proc
->
mutex_dlsch_td1
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][UE] error unlocking mutex for UE td1
\n
"
);
exit_fun
(
"noting to add"
);
}
//printf("end 2thread1 proc->instance_cnt_dlsch_td1 %d\n", proc->instance_cnt_dlsch_td1);
}
//printf("after 2thread1 after oai exit proc->instance_cnt_dlsch_td %d\n", proc->instance_cnt_dlsch_td1);
// thread finished
free
(
arg
);
return
&
UE_dlsch_td_retval1
;
}
#endif
openair1/PHY/NR_UE_TRANSPORT/nr_transport_proto_ue.h
View file @
973a0795
...
...
@@ -1818,6 +1818,6 @@ int nr_extract_dci_info(PHY_VARS_NR_UE *ue,
uint16_t
n_RB_DLBWP
,
uint16_t
crc_scrambled_values
[
TOTAL_NBR_SCRAMBLED_VALUES
]);
void
*
dlsch_thread
(
void
*
arg
);
/**@}*/
#endif
openair1/PHY/defs_common.h
View file @
973a0795
...
...
@@ -80,6 +80,7 @@
#define RX_NB_TH_MAX 2
#define RX_NB_TH 2
#define RX_NB_TH_DL 2
#define LTE_SLOTS_PER_SUBFRAME 2
...
...
openair1/PHY/defs_nr_UE.h
View file @
973a0795
...
...
@@ -1221,10 +1221,10 @@ typedef struct {
/* this structure is used to pass both UE phy vars and
* proc to the function UE_thread_rxn_txnp4
*/
struct
nr_rxtx_thread_data
{
typedef
struct
nr_rxtx_thread_data_s
{
UE_nr_rxtx_proc_t
proc
;
PHY_VARS_NR_UE
*
UE
;
UE_nr_rxtx_proc_t
*
proc
;
};
}
nr_rxtx_thread_data_t
;
/*static inline int wait_on_condition(pthread_mutex_t *mutex,pthread_cond_t *cond,int *instance_cnt,char *name) {
...
...
openair1/PHY/thread_NR_UE.h
View file @
973a0795
...
...
@@ -60,7 +60,7 @@ typedef struct {
uint8_t
decoder_thread_available
;
uint8_t
decoder_main_available
;
uint8_t
decoder_switch
;
int
counter_decoder
;
int
num_seg
;
uint8_t
channel_level
;
int
eNB_id
;
int
harq_pid
;
...
...
openair1/SCHED_NR_UE/defs.h
View file @
973a0795
...
...
@@ -44,7 +44,7 @@
#define OPENAIR_THREAD_STACK_SIZE PTHREAD_STACK_MIN //4096 //RTL_PTHREAD_STACK_MIN*6
//#define DLC_THREAD_STACK_SIZE 4096 //DLC stack size
//#define UE_SLOT_PARALLELISATION
//#define UE_DLSCH_PARALLELISATION
#define UE_DLSCH_PARALLELISATION//
/*enum openair_SCHED_STATUS {
openair_SCHED_STOPPED=1,
...
...
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