Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
O
OpenXG UE
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Issues
0
Issues
0
List
Boards
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Analytics
Analytics
CI / CD
Repository
Value Stream
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
OpenXG
OpenXG UE
Commits
34b5ef50
Commit
34b5ef50
authored
Feb 26, 2018
by
Niccolò Iardella
Committed by
Robert Schmidt
Sep 03, 2018
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
Split positioning() in positioning() and intraslice_sharing()
parent
61de639b
Changes
2
Hide whitespace changes
Inline
Side-by-side
Showing
2 changed files
with
292 additions
and
80 deletions
+292
-80
openair2/LAYER2/MAC/mac_proto.h
openair2/LAYER2/MAC/mac_proto.h
+10
-2
openair2/LAYER2/MAC/pre_processor.c
openair2/LAYER2/MAC/pre_processor.c
+282
-78
No files found.
openair2/LAYER2/MAC/mac_proto.h
View file @
34b5ef50
...
@@ -235,19 +235,27 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
...
@@ -235,19 +235,27 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
frame_t
frameP
,
frame_t
frameP
,
sub_frame_t
subframeP
,
sub_frame_t
subframeP
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint8_t
total_ue_count
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
]);
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
]);
void
dlsch_scheduler_pre_processor_positioning
(
module_id_t
Mod_id
,
void
dlsch_scheduler_pre_processor_positioning
(
module_id_t
Mod_id
,
slice_id_t
slice_id
,
slice_id_t
slice_id
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint8_t
total_ue_count
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
]);
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
]);
void
dlsch_scheduler_pre_processor_intraslice_sharing
(
module_id_t
Mod_id
,
slice_id_t
slice_id
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
]);
void
dlsch_scheduler_pre_processor_allocate
(
module_id_t
Mod_id
,
void
dlsch_scheduler_pre_processor_allocate
(
module_id_t
Mod_id
,
int
UE_id
,
int
UE_id
,
uint8_t
CC_id
,
uint8_t
CC_id
,
...
...
openair2/LAYER2/MAC/pre_processor.c
View file @
34b5ef50
...
@@ -588,7 +588,6 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
...
@@ -588,7 +588,6 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
frame_t
frameP
,
frame_t
frameP
,
sub_frame_t
subframeP
,
sub_frame_t
subframeP
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint8_t
total_ue_count
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
])
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
])
{
{
...
@@ -600,6 +599,7 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
...
@@ -600,6 +599,7 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
uint16_t
available_rbs
;
uint16_t
available_rbs
;
uint8_t
rbs_retx
[
NFAPI_CC_MAX
];
uint8_t
rbs_retx
[
NFAPI_CC_MAX
];
uint16_t
average_rbs_per_user
[
NFAPI_CC_MAX
];
uint16_t
average_rbs_per_user
[
NFAPI_CC_MAX
];
int
total_ue_count
[
NFAPI_CC_MAX
];
int
ue_count_newtx
[
NFAPI_CC_MAX
];
int
ue_count_newtx
[
NFAPI_CC_MAX
];
int
ue_count_retx
[
NFAPI_CC_MAX
];
int
ue_count_retx
[
NFAPI_CC_MAX
];
uint8_t
ue_retx_flag
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
uint8_t
ue_retx_flag
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
...
@@ -750,94 +750,63 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
...
@@ -750,94 +750,63 @@ void dlsch_scheduler_pre_processor_accounting(module_id_t Mod_id,
void
dlsch_scheduler_pre_processor_positioning
(
module_id_t
Mod_id
,
void
dlsch_scheduler_pre_processor_positioning
(
module_id_t
Mod_id
,
slice_id_t
slice_id
,
slice_id_t
slice_id
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint8_t
total_ue_count
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
])
{
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
])
{
int
UE_id
,
CC_id
;
int
UE_id
,
CC_id
;
int
i
;
int
i
;
uint8_t
transmission_mode
;
uint8_t
transmission_mode
;
uint8_t
slice_allocation_mask
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
uint8_t
slice_allocation_mask
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
int
N_RBG
[
NFAPI_CC_MAX
];
int
N_RBG
[
NFAPI_CC_MAX
];
rnti_t
rnti
;
UE_list_t
*
UE_list
=
&
RC
.
mac
[
Mod_id
]
->
UE_list
;
UE_list_t
*
UE_list
=
&
RC
.
mac
[
Mod_id
]
->
UE_list
;
decode_slice_positioning
(
Mod_id
,
slice_id
,
slice_allocation_mask
);
decode_slice_positioning
(
Mod_id
,
slice_id
,
slice_allocation_mask
);
//Allocation to UEs is done in 2 rounds,
for
(
CC_id
=
0
;
CC_id
<
RC
.
nb_mac_CC
[
Mod_id
];
CC_id
++
)
{
// 1st stage: average number of RBs allocated to each UE
COMMON_channels_t
*
cc
=
&
RC
.
mac
[
Mod_id
]
->
common_channels
[
CC_id
];
// 2nd stage: remaining RBs are allocated to high priority UEs
N_RBG
[
CC_id
]
=
to_rbg
(
cc
->
mib
->
message
.
dl_Bandwidth
);
for
(
int
r1
=
0
;
r1
<
2
;
r1
++
)
{
}
for
(
UE_id
=
UE_list
->
head
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next
[
UE_id
])
{
for
(
i
=
0
;
i
<
UE_num_active_CC
(
UE_list
,
UE_id
);
i
++
)
{
CC_id
=
UE_list
->
ordered_CCids
[
i
][
UE_id
];
COMMON_channels_t
*
cc
=
&
RC
.
mac
[
Mod_id
]
->
common_channels
[
CC_id
];
N_RBG
[
i
]
=
to_rbg
(
cc
->
mib
->
message
.
dl_Bandwidth
);
if
(
r1
==
0
)
{
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_accounted
[
CC_id
][
UE_id
];
}
else
{
// rb required based only on the buffer - rb allocated in the 1st round + extra reaming rb form the 1st round
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_required
[
CC_id
][
UE_id
]
-
nb_rbs_accounted
[
CC_id
][
UE_id
]
+
nb_rbs_remaining
[
CC_id
][
UE_id
];
if
(
nb_rbs_remaining
[
CC_id
][
UE_id
]
<
0
)
abort
();
}
if
(
nb_rbs_required
[
CC_id
][
UE_id
]
>
0
)
LOG_D
(
MAC
,
"round %d : nb_rbs_remaining[%d][%d]= %d (accounted %d, required %d, pre_nb_available_rbs %d, N_RBG %d, rb_unit %d)
\n
"
,
r1
,
CC_id
,
UE_id
,
nb_rbs_remaining
[
CC_id
][
UE_id
],
nb_rbs_accounted
[
CC_id
][
UE_id
],
nb_rbs_required
[
CC_id
][
UE_id
],
UE_list
->
UE_sched_ctrl
[
UE_id
].
pre_nb_available_rbs
[
CC_id
],
N_RBG
[
CC_id
],
min_rb_unit
[
CC_id
]);
}
}
for
(
UE_id
=
UE_list
->
head
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next
[
UE_id
])
{
for
(
i
=
0
;
i
<
UE_num_active_CC
(
UE_list
,
UE_id
);
i
++
)
{
CC_id
=
UE_list
->
ordered_CCids
[
i
][
UE_id
];
// Try to allocate accounted RBs
// if there are UEs with traffic
for
(
UE_id
=
UE_list
->
head
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next
[
UE_id
])
{
if
(
total_ue_count
[
CC_id
]
>
0
)
{
rnti
=
UE_RNTI
(
Mod_id
,
UE_id
);
if
(
UE_RNTI
(
Mod_id
,
UE_id
)
==
NOT_A_RNTI
)
continue
;
if
(
UE_list
->
UE_sched_ctrl
[
UE_id
].
ul_out_of_sync
==
1
)
continue
;
if
(
!
ue_slice_membership
(
UE_id
,
slice_id
))
continue
;
// LOG_D(MAC,"UE %d rnti 0x\n", UE_id, rnti );
for
(
i
=
0
;
i
<
UE_num_active_CC
(
UE_list
,
UE_id
);
i
++
)
{
if
(
rnti
==
NOT_A_RNTI
)
CC_id
=
UE_list
->
ordered_CCids
[
i
][
UE_id
];
continue
;
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_accounted
[
CC_id
][
UE_id
];
if
(
!
ue_slice_membership
(
UE_id
,
slice_id
))
transmission_mode
=
get_tmode
(
Mod_id
,
CC_id
,
UE_id
);
continue
;
transmission_mode
=
get_tmode
(
Mod_id
,
CC_id
,
UE_id
);
if
(
nb_rbs_required
[
CC_id
][
UE_id
]
>
0
)
LOG_D
(
MAC
,
// retransmission in data channels
"Step 1: nb_rbs_remaining[%d][%d]= %d (accounted %d, required %d, pre_nb_available_rbs %d, N_RBG %d, rb_unit %d)
\n
"
,
// control channel in the 1st transmission
CC_id
,
// data channel for all TM
UE_id
,
LOG_T
(
MAC
,
"calling dlsch_scheduler_pre_processor_allocate ..
\n
"
);
nb_rbs_remaining
[
CC_id
][
UE_id
],
dlsch_scheduler_pre_processor_allocate
(
Mod_id
,
nb_rbs_accounted
[
CC_id
][
UE_id
],
UE_id
,
nb_rbs_required
[
CC_id
][
UE_id
],
CC_id
,
UE_list
->
UE_sched_ctrl
[
UE_id
].
pre_nb_available_rbs
[
CC_id
],
N_RBG
[
CC_id
],
N_RBG
[
CC_id
],
min_rb_unit
[
CC_id
],
min_rb_unit
[
CC_id
]);
nb_rbs_required
,
nb_rbs_remaining
,
LOG_T
(
MAC
,
"calling dlsch_scheduler_pre_processor_allocate ..
\n
"
);
rballoc_sub
,
dlsch_scheduler_pre_processor_allocate
(
Mod_id
,
slice_allocation_mask
,
UE_id
,
MIMO_mode_indicator
);
CC_id
,
N_RBG
[
CC_id
],
min_rb_unit
[
CC_id
],
nb_rbs_required
,
nb_rbs_remaining
,
rballoc_sub
,
slice_allocation_mask
,
MIMO_mode_indicator
);
#ifdef TM5
#ifdef TM5
// data chanel TM5: to be revisited
// data chanel TM5: to be revisited
...
@@ -1001,10 +970,236 @@ void dlsch_scheduler_pre_processor_positioning(module_id_t Mod_id,
...
@@ -1001,10 +970,236 @@ void dlsch_scheduler_pre_processor_positioning(module_id_t Mod_id,
}
}
}
}
#endif
#endif
}
// total_ue_count
}
}
// CC
}
}
// UE
}
}
// end of for for r1 and r2
void
dlsch_scheduler_pre_processor_intraslice_sharing
(
module_id_t
Mod_id
,
slice_id_t
slice_id
,
int
min_rb_unit
[
NFAPI_CC_MAX
],
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
],
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
],
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
])
{
int
UE_id
,
CC_id
;
int
i
;
uint8_t
transmission_mode
;
uint8_t
slice_allocation_mask
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
UE_list_t
*
UE_list
=
&
RC
.
mac
[
Mod_id
]
->
UE_list
;
int
N_RBG
[
NFAPI_CC_MAX
];
decode_slice_positioning
(
Mod_id
,
slice_id
,
slice_allocation_mask
);
for
(
CC_id
=
0
;
CC_id
<
RC
.
nb_mac_CC
[
Mod_id
];
CC_id
++
)
{
COMMON_channels_t
*
cc
=
&
RC
.
mac
[
Mod_id
]
->
common_channels
[
CC_id
];
N_RBG
[
CC_id
]
=
to_rbg
(
cc
->
mib
->
message
.
dl_Bandwidth
);
}
// Remaining RBs are allocated to high priority UEs
for
(
UE_id
=
UE_list
->
head
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next
[
UE_id
])
{
if
(
UE_RNTI
(
Mod_id
,
UE_id
)
==
NOT_A_RNTI
)
continue
;
if
(
UE_list
->
UE_sched_ctrl
[
UE_id
].
ul_out_of_sync
==
1
)
continue
;
if
(
!
ue_slice_membership
(
UE_id
,
slice_id
))
continue
;
for
(
i
=
0
;
i
<
UE_num_active_CC
(
UE_list
,
UE_id
);
i
++
)
{
CC_id
=
UE_list
->
ordered_CCids
[
i
][
UE_id
];
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_required
[
CC_id
][
UE_id
]
-
nb_rbs_accounted
[
CC_id
][
UE_id
]
+
nb_rbs_remaining
[
CC_id
][
UE_id
];
if
(
nb_rbs_remaining
[
CC_id
][
UE_id
]
<
0
)
abort
();
transmission_mode
=
get_tmode
(
Mod_id
,
CC_id
,
UE_id
);
if
(
nb_rbs_required
[
CC_id
][
UE_id
]
>
0
)
LOG_D
(
MAC
,
"Step 2: nb_rbs_remaining[%d][%d]= %d (accounted %d, required %d, pre_nb_available_rbs %d, N_RBG %d, rb_unit %d)
\n
"
,
CC_id
,
UE_id
,
nb_rbs_remaining
[
CC_id
][
UE_id
],
nb_rbs_accounted
[
CC_id
][
UE_id
],
nb_rbs_required
[
CC_id
][
UE_id
],
UE_list
->
UE_sched_ctrl
[
UE_id
].
pre_nb_available_rbs
[
CC_id
],
N_RBG
[
CC_id
],
min_rb_unit
[
CC_id
]);
LOG_T
(
MAC
,
"calling dlsch_scheduler_pre_processor_allocate ..
\n
"
);
dlsch_scheduler_pre_processor_allocate
(
Mod_id
,
UE_id
,
CC_id
,
N_RBG
[
CC_id
],
min_rb_unit
[
CC_id
],
nb_rbs_required
,
nb_rbs_remaining
,
rballoc_sub
,
slice_allocation_mask
,
MIMO_mode_indicator
);
#ifdef TM5
// data chanel TM5: to be revisited
if
((
round
==
0
)
&&
(
transmission_mode
==
5
)
&&
(
ue_sched_ctl
->
dl_pow_off
[
CC_id
]
!=
1
))
{
for
(
j
=
0
;
j
<
N_RBG
[
CC_id
];
j
+=
2
)
{
if
((((
j
==
(
N_RBG
[
CC_id
]
-
1
))
&&
(
rballoc_sub
[
CC_id
][
j
]
==
0
)
&&
(
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
][
j
]
==
0
))
||
((
j
<
(
N_RBG
[
CC_id
]
-
1
))
&&
(
rballoc_sub
[
CC_id
][
j
+
1
]
==
0
)
&&
(
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
][
j
+
1
]
==
0
)))
&&
(
nb_rbs_remaining
[
CC_id
][
UE_id
]
>
0
))
{
for
(
i
=
UE_list
->
next
[
UE_id
+
1
];
i
>=
0
;
i
=
UE_list
->
next
[
i
])
{
UE_id2
=
i
;
rnti2
=
UE_RNTI
(
Mod_id
,
UE_id2
);
ue_sched_ctl2
=
&
UE_list
->
UE_sched_ctrl
[
UE_id2
];
round2
=
ue_sched_ctl2
->
round
[
CC_id
];
if
(
rnti2
==
NOT_A_RNTI
)
continue
;
if
(
UE_list
->
UE_sched_ctrl
[
UE_id2
].
ul_out_of_sync
==
1
)
continue
;
eNB_UE_stats2
=
UE_list
->
eNB_UE_stats
[
CC_id
][
UE_id2
];
//mac_xface->get_ue_active_harq_pid(Mod_id,CC_id,rnti2,frameP,subframeP,&harq_pid2,&round2,0);
if
((
mac_eNB_get_rrc_status
(
Mod_id
,
rnti2
)
>=
RRC_RECONFIGURED
)
&&
(
round2
==
0
)
&&
(
get_tmode
(
Mod_id
,
CC_id
,
UE_id2
)
==
5
)
&&
(
ue_sched_ctl
->
dl_pow_off
[
CC_id
]
!=
1
))
{
if
((((
j
==
(
N_RBG
[
CC_id
]
-
1
))
&&
(
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
][
j
]
==
0
))
||
((
j
<
(
N_RBG
[
CC_id
]
-
1
))
&&
(
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
][
j
+
1
]
==
0
)))
&&
(
nb_rbs_remaining
[
CC_id
]
[
UE_id2
]
>
0
))
{
if
((((
eNB_UE_stats2
->
DL_pmi_single
^
eNB_UE_stats1
->
DL_pmi_single
)
<<
(
14
-
j
))
&
0xc000
)
==
0x4000
)
{
//MU-MIMO only for 25 RBs configuration
rballoc_sub
[
CC_id
][
j
]
=
1
;
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
]
[
j
]
=
1
;
ue_sched_ctl2
->
rballoc_sub_UE
[
CC_id
]
[
j
]
=
1
;
MIMO_mode_indicator
[
CC_id
]
[
j
]
=
0
;
if
(
j
<
N_RBG
[
CC_id
]
-
1
)
{
rballoc_sub
[
CC_id
][
j
+
1
]
=
1
;
ue_sched_ctl
->
rballoc_sub_UE
[
CC_id
][
j
+
1
]
=
1
;
ue_sched_ctl2
->
rballoc_sub_UE
[
CC_id
][
j
+
1
]
=
1
;
MIMO_mode_indicator
[
CC_id
][
j
+
1
]
=
0
;
}
ue_sched_ctl
->
dl_pow_off
[
CC_id
]
=
0
;
ue_sched_ctl2
->
dl_pow_off
[
CC_id
]
=
0
;
if
((
j
==
N_RBG
[
CC_id
]
-
1
)
&&
((
N_RB_DL
==
25
)
||
(
N_RB_DL
==
50
)))
{
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_remaining
[
CC_id
][
UE_id
]
-
min_rb_unit
[
CC_id
]
+
1
;
ue_sched_ctl
->
pre_nb_available_rbs
[
CC_id
]
=
ue_sched_ctl
->
pre_nb_available_rbs
[
CC_id
]
+
min_rb_unit
[
CC_id
]
-
1
;
nb_rbs_remaining
[
CC_id
][
UE_id2
]
=
nb_rbs_remaining
[
CC_id
][
UE_id2
]
-
min_rb_unit
[
CC_id
]
+
1
;
ue_sched_ctl2
->
pre_nb_available_rbs
[
CC_id
]
=
ue_sched_ctl2
->
pre_nb_available_rbs
[
CC_id
]
+
min_rb_unit
[
CC_id
]
-
1
;
}
else
{
nb_rbs_remaining
[
CC_id
][
UE_id
]
=
nb_rbs_remaining
[
CC_id
][
UE_id
]
-
4
;
ue_sched_ctl
->
pre_nb_available_rbs
[
CC_id
]
=
ue_sched_ctl
->
pre_nb_available_rbs
[
CC_id
]
+
4
;
nb_rbs_remaining
[
CC_id
][
UE_id2
]
=
nb_rbs_remaining
[
CC_id
][
UE_id2
]
-
4
;
ue_sched_ctl2
->
pre_nb_available_rbs
[
CC_id
]
=
ue_sched_ctl2
->
pre_nb_available_rbs
[
CC_id
]
+
4
;
}
break
;
}
}
}
}
}
}
}
#endif
}
}
}
}
// This function assigns pre-available RBS to each UE in specified sub-bands before scheduling is done
// This function assigns pre-available RBS to each UE in specified sub-bands before scheduling is done
...
@@ -1020,12 +1215,12 @@ dlsch_scheduler_pre_processor(module_id_t Mod_id,
...
@@ -1020,12 +1215,12 @@ dlsch_scheduler_pre_processor(module_id_t Mod_id,
uint16_t
i
,
j
;
uint16_t
i
,
j
;
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
uint8_t
rballoc_sub
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
uint8_t
total_ue_count
[
NFAPI_CC_MAX
];
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
// If TM5 is revisited, we can move this inside accounting
uint8_t
MIMO_mode_indicator
[
NFAPI_CC_MAX
][
N_RBG_MAX
];
// If TM5 is revisited, we can move this inside accounting
int
min_rb_unit
[
NFAPI_CC_MAX
];
int
min_rb_unit
[
NFAPI_CC_MAX
];
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
uint16_t
nb_rbs_required
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
uint16_t
nb_rbs_accounted
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
uint16_t
nb_rbs_remaining
[
NFAPI_CC_MAX
][
MAX_MOBILES_PER_ENB
];
UE_list_t
*
UE_list
=
&
RC
.
mac
[
Mod_id
]
->
UE_list
;
UE_list_t
*
UE_list
=
&
RC
.
mac
[
Mod_id
]
->
UE_list
;
UE_sched_ctrl
*
ue_sched_ctl
;
UE_sched_ctrl
*
ue_sched_ctl
;
...
@@ -1066,19 +1261,28 @@ dlsch_scheduler_pre_processor(module_id_t Mod_id,
...
@@ -1066,19 +1261,28 @@ dlsch_scheduler_pre_processor(module_id_t Mod_id,
// This procedure decides the number of RBs to allocate
// This procedure decides the number of RBs to allocate
dlsch_scheduler_pre_processor_accounting
(
Mod_id
,
slice_id
,
frameP
,
subframeP
,
dlsch_scheduler_pre_processor_accounting
(
Mod_id
,
slice_id
,
frameP
,
subframeP
,
min_rb_unit
,
min_rb_unit
,
total_ue_count
,
nb_rbs_required
,
nb_rbs_required
,
nb_rbs_accounted
);
nb_rbs_accounted
);
// POSITIONING
// POSITIONING
// This procedure does the main allocation of the RBs
// This procedure does the main allocation of the RBs
dlsch_scheduler_pre_processor_positioning
(
Mod_id
,
slice_id
,
dlsch_scheduler_pre_processor_positioning
(
Mod_id
,
slice_id
,
min_rb_unit
,
min_rb_unit
,
total_ue_count
,
nb_rbs_required
,
nb_rbs_required
,
nb_rbs_accounted
,
nb_rbs_accounted
,
nb_rbs_remaining
,
rballoc_sub
,
rballoc_sub
,
MIMO_mode_indicator
);
MIMO_mode_indicator
);
// SHARING
// If there are available RBs left in the slice, allocate them to the highest priority UEs
dlsch_scheduler_pre_processor_intraslice_sharing
(
Mod_id
,
slice_id
,
min_rb_unit
,
nb_rbs_required
,
nb_rbs_accounted
,
nb_rbs_remaining
,
rballoc_sub
,
MIMO_mode_indicator
);
#ifdef TM5
#ifdef TM5
// This has to be revisited!!!!
// This has to be revisited!!!!
for
(
CC_id
=
0
;
CC_id
<
RC
.
nb_mac_CC
[
Mod_id
];
CC_id
++
)
{
for
(
CC_id
=
0
;
CC_id
<
RC
.
nb_mac_CC
[
Mod_id
];
CC_id
++
)
{
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment
