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alex037yang
OpenXG-RAN
Commits
edf8e6ae
Commit
edf8e6ae
authored
Jan 10, 2017
by
Xiwen JIANG
Browse files
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Plain Diff
TDD workaround for EXMIMO2 card
parent
57fdcd58
Changes
8
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Showing
8 changed files
with
309 additions
and
5 deletions
+309
-5
cmake_targets/CMakeLists.txt
cmake_targets/CMakeLists.txt
+1
-0
openair1/PHY/MODULATION/defs.h
openair1/PHY/MODULATION/defs.h
+2
-0
openair1/PHY/MODULATION/fs_1_4.h
openair1/PHY/MODULATION/fs_1_4.h
+24
-0
openair1/PHY/MODULATION/gen_1_4_fs.m
openair1/PHY/MODULATION/gen_1_4_fs.m
+107
-0
openair1/PHY/MODULATION/ul_1_4_fs.c
openair1/PHY/MODULATION/ul_1_4_fs.c
+157
-0
openair1/PHY/impl_defs_lte.h
openair1/PHY/impl_defs_lte.h
+5
-0
openair1/SCHED/phy_procedures_lte_eNb.c
openair1/SCHED/phy_procedures_lte_eNb.c
+12
-4
targets/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band38.tm7.exmimo2.conf
...PROJECTS/GENERIC-LTE-EPC/CONF/enb.band38.tm7.exmimo2.conf
+1
-1
No files found.
cmake_targets/CMakeLists.txt
View file @
edf8e6ae
...
@@ -1071,6 +1071,7 @@ set(PHY_SRC
...
@@ -1071,6 +1071,7 @@ set(PHY_SRC
${
OPENAIR1_DIR
}
/PHY/MODULATION/slot_fep_mbsfn.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/slot_fep_mbsfn.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/slot_fep_ul.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/slot_fep_ul.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/ul_7_5_kHz.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/ul_7_5_kHz.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/ul_1_4_fs.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/beamforming.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/beamforming.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/compute_bf_weights.c
${
OPENAIR1_DIR
}
/PHY/MODULATION/compute_bf_weights.c
${
OPENAIR1_DIR
}
/PHY/LTE_ESTIMATION/freq_equalization.c
${
OPENAIR1_DIR
}
/PHY/LTE_ESTIMATION/freq_equalization.c
...
...
openair1/PHY/MODULATION/defs.h
View file @
edf8e6ae
...
@@ -92,6 +92,8 @@ void do_OFDM_mod(int32_t **txdataF, int32_t **txdata, uint32_t frame,uint16_t ne
...
@@ -92,6 +92,8 @@ void do_OFDM_mod(int32_t **txdataF, int32_t **txdata, uint32_t frame,uint16_t ne
void
do_OFDM_mod_symbol
(
LTE_eNB_COMMON
*
eNB_common_vars
,
int
eNB_id
,
uint16_t
next_slot
,
LTE_DL_FRAME_PARMS
*
frame_parms
,
int
antenna
);
void
do_OFDM_mod_symbol
(
LTE_eNB_COMMON
*
eNB_common_vars
,
int
eNB_id
,
uint16_t
next_slot
,
LTE_DL_FRAME_PARMS
*
frame_parms
,
int
antenna
);
void
remove_1_4_fs
(
PHY_VARS_eNB
*
phy_vars_eNB
,
uint8_t
subframe
);
void
remove_7_5_kHz
(
PHY_VARS_eNB
*
phy_vars_eNB
,
uint8_t
subframe
);
void
remove_7_5_kHz
(
PHY_VARS_eNB
*
phy_vars_eNB
,
uint8_t
subframe
);
void
apply_7_5_kHz
(
PHY_VARS_UE
*
phy_vars_ue
,
int32_t
*
txdata
,
uint8_t
subframe
);
void
apply_7_5_kHz
(
PHY_VARS_UE
*
phy_vars_ue
,
int32_t
*
txdata
,
uint8_t
subframe
);
...
...
openair1/PHY/MODULATION/fs_1_4.h
0 → 100644
View file @
edf8e6ae
This source diff could not be displayed because it is too large. You can
view the blob
instead.
openair1/PHY/MODULATION/gen_1_4_fs.m
0 → 100644
View file @
edf8e6ae
function
[]
=
gen_1_4_fs
()
[
s6_n2
,
s6_e2
]
=
gen_sig
(
6
);
[
s15_n2
,
s15_e2
]
=
gen_sig
(
15
);
[
s25_n2
,
s25_e2
]
=
gen_sig
(
25
);
[
s50_n2
,
s50_e2
]
=
gen_sig
(
50
);
[
s75_n2
,
s75_e2
]
=
gen_sig
(
75
);
[
s100_n2
,
s100_e2
]
=
gen_sig
(
100
);
fd
=
fopen
(
"fs_1_4.h"
,
"w"
);
fprintf
(
fd
,
"int16_t s6n_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s6_n2
));
fprintf
(
fd
,
"%d,"
,
s6_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s6_n2
(
end
));
fprintf
(
fd
,
"int16_t s6e_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s6_e2
));
fprintf
(
fd
,
"%d,"
,
s6_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s6_e2
(
end
));
fprintf
(
fd
,
"int16_t s15n_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s15_n2
));
fprintf
(
fd
,
"%d,"
,
s15_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s15_n2
(
end
));
fprintf
(
fd
,
"int16_t s15e_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s15_e2
));
fprintf
(
fd
,
"%d,"
,
s15_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s15_e2
(
end
));
fprintf
(
fd
,
"int16_t s25n_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s25_n2
));
fprintf
(
fd
,
"%d,"
,
s25_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s25_n2
(
end
));
fprintf
(
fd
,
"int16_t s25e_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s25_e2
));
fprintf
(
fd
,
"%d,"
,
s25_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s25_e2
(
end
));
fprintf
(
fd
,
"int16_t s50n_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s50_n2
));
fprintf
(
fd
,
"%d,"
,
s50_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s50_n2
(
end
));
fprintf
(
fd
,
"int16_t s50e_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s50_e2
));
fprintf
(
fd
,
"%d,"
,
s50_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s50_e2
(
end
));
fprintf
(
fd
,
"int16_t s75n_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s75_n2
));
fprintf
(
fd
,
"%d,"
,
s75_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s75_n2
(
end
));
fprintf
(
fd
,
"int16_t s75e_fs_1_4[%d]__attribute__((aligned(16))) = {"
,
length
(
s75_e2
));
fprintf
(
fd
,
"%d,"
,
s75_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s75_e2
(
end
));
fprintf
(
fd
,
"int16_t s100n_fs_1_4[%d]__attribute__((aligned(16)))= {"
,
length
(
s100_n2
));
fprintf
(
fd
,
"%d,"
,
s100_n2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s100_n2
(
end
));
fprintf
(
fd
,
"int16_t s100e_fs_1_4[%d]__attribute__((aligned(16)))= {"
,
length
(
s100_n2
));
fprintf
(
fd
,
"%d,"
,
s100_e2
(
1
:(
end
-
1
)));
fprintf
(
fd
,
"%d};\n\n"
,
s100_e2
(
end
));
fclose
(
fd
);
end
function
[
s_n2
,
s_e2
]
=
gen_sig
(
RB
)
% 20MHz BW
cp0
=
160
;
cp
=
144
;
cpe
=
512
;
samplerate
=
30.72e6
;
ofdm_size
=
2048
;
len
=
15360
;
switch
(
RB
)
case
6
ratio
=
1
/
16
;
case
15
ratio
=
1
/
8
;
case
25
ratio
=
1
/
4
;
case
50
ratio
=
1
/
2
;
case
75
ratio
=
3
/
4
;
case
100
ratio
=
1
;
otherwise
disp
(
"Wrong Number of RB"
);
end
cp0
=
cp0
*
ratio
;
cp
=
cp
*
ratio
;
cpe
=
cpe
*
ratio
;
samplerate
=
samplerate
*
ratio
;
ofdm_size
=
ofdm_size
*
ratio
;
len
=
len
*
ratio
;
s_n0
=
floor
(
32767
*
exp
(
-
sqrt
(
-
1
)
*
2
*
pi
*
(
-
cp0
:
ofdm_size
-
1
)
*
(
0.25
+
7.5e3
/
samplerate
)));
s_n1
=
floor
(
32767
*
exp
(
-
sqrt
(
-
1
)
*
2
*
pi
*
(
-
cp
:
ofdm_size
-
1
)
*
(
0.25
+
7.5e3
/
samplerate
)));
s_n
=
[
s_n0
s_n1
s_n1
s_n1
s_n1
s_n1
s_n1
];
s_n2
=
zeros
(
1
,
2
*
len
);
s_n2
(
1
:
2
:
end
)
=
real
(
s_n
);
s_n2
(
2
:
2
:
end
)
=
imag
(
s_n
);
s_e
=
floor
(
32767
*
exp
(
-
sqrt
(
-
1
)
*
2
*
pi
*
(
-
cpe
:
ofdm_size
-
1
)
*
(
0.25
+
7.5e3
/
samplerate
)));
s_e
=
[
s_e
s_e
s_e
s_e
s_e
s_e
];
s_e2
=
zeros
(
1
,
2
*
len
);
s_e2
(
1
:
2
:
end
)
=
real
(
s_e
);
s_e2
(
2
:
2
:
end
)
=
imag
(
s_e
);
end
openair1/PHY/MODULATION/ul_1_4_fs.c
0 → 100644
View file @
edf8e6ae
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.0 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
#include "PHY/defs.h"
#include "PHY/extern.h"
#include "extern.h"
#include "fs_1_4.h"
#include "prach625Hz.h"
#ifdef USER_MODE
#include <math.h>
#else
#include "rtai_math.h"
#endif
#include "PHY/sse_intrin.h"
short
conjugate14
[
8
]
__attribute__
((
aligned
(
16
)))
=
{
-
1
,
1
,
-
1
,
1
,
-
1
,
1
,
-
1
,
1
}
;
short
conjugate14_2
[
8
]
__attribute__
((
aligned
(
16
)))
=
{
1
,
-
1
,
1
,
-
1
,
1
,
-
1
,
1
,
-
1
}
;
void
remove_1_4_fs
(
PHY_VARS_eNB
*
eNB
,
uint8_t
slot
)
{
int32_t
**
rxdata
=
eNB
->
common_vars
.
rxdata
[
0
];
int32_t
**
rxdata_1_4fs
=
eNB
->
common_vars
.
rxdata_1_4fs
[
0
];
uint16_t
len
;
uint32_t
*
fs1_4ptr
;
#if defined(__x86_64__) || defined(__i386__)
__m128i
*
rxptr128
,
*
rxptr128_1_4fs
,
*
fs1_4ptr128
,
fs1_4_2
,
mmtmp_re
,
mmtmp_im
,
mmtmp_re2
,
mmtmp_im2
;
#elif defined(__arm__)
int16x8_t
*
rxptr128
,
*
fs1_4ptr128
,
*
rxptr128_1_4fs
;
int32x4_t
mmtmp_re
,
mmtmp_im
;
int32x4_t
mmtmp0
,
mmtmp1
;
#endif
uint32_t
slot_offset
,
slot_offset2
;
uint8_t
aa
;
uint32_t
i
;
LTE_DL_FRAME_PARMS
*
frame_parms
=&
eNB
->
frame_parms
;
switch
(
frame_parms
->
N_RB_UL
)
{
case
6
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s6n_fs_1_4
:
(
uint32_t
*
)
s6e_fs_1_4
;
break
;
case
15
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s15n_fs_1_4
:
(
uint32_t
*
)
s15e_fs_1_4
;
break
;
case
25
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s25n_fs_1_4
:
(
uint32_t
*
)
s25e_fs_1_4
;
break
;
case
50
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s50n_fs_1_4
:
(
uint32_t
*
)
s50e_fs_1_4
;
break
;
case
75
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s75n_fs_1_4
:
(
uint32_t
*
)
s75e_fs_1_4
;
break
;
case
100
:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s100n_fs_1_4
:
(
uint32_t
*
)
s100e_fs_1_4
;
break
;
default:
fs1_4ptr
=
(
frame_parms
->
Ncp
==
0
)
?
(
uint32_t
*
)
s25n_fs_1_4
:
(
uint32_t
*
)
s25e_fs_1_4
;
break
;
}
slot_offset
=
(
uint32_t
)
slot
*
frame_parms
->
samples_per_tti
/
2
-
eNB
->
N_TA_offset
;
slot_offset2
=
(
uint32_t
)(
slot
&
1
)
*
frame_parms
->
samples_per_tti
/
2
;
len
=
frame_parms
->
samples_per_tti
/
2
;
for
(
aa
=
0
;
aa
<
frame_parms
->
nb_antennas_rx
;
aa
++
)
{
#if defined(__x86_64__) || defined(__i386__)
rxptr128
=
(
__m128i
*
)
&
rxdata
[
aa
][
slot_offset
];
rxptr128_1_4fs
=
(
__m128i
*
)
&
rxdata_1_4fs
[
aa
][
slot_offset2
];
fs1_4ptr128
=
(
__m128i
*
)
fs1_4ptr
;
#elif defined(__arm__)
rxptr128
=
(
int16x8_t
*
)
&
rxdata
[
aa
][
slot_offset
];
rxptr128_1_4fs
=
(
int16x8_t
*
)
&
rxdata_1_4fs
[
aa
][
slot_offset2
];
fs1_4ptr128
=
(
int16x8_t
*
)
fs1_4ptr
;
#endif
// remove 7.5 kHz + 1/4*fs
// if (((slot>>1)&1) == 0) { // apply the sinusoid from the table directly
for
(
i
=
0
;
i
<
(
len
>>
2
);
i
++
)
{
#if defined(__x86_64__) || defined(__i386__)
fs1_4_2
=
_mm_sign_epi16
(
*
fs1_4ptr128
,
*
(
__m128i
*
)
&
conjugate14_2
[
0
]);
mmtmp_re
=
_mm_madd_epi16
(
*
rxptr128
,
fs1_4_2
);
// Real part of complex multiplication (note: fs1_4 signal is conjugated for this to work)
mmtmp_im
=
_mm_shufflelo_epi16
(
fs1_4_2
,
_MM_SHUFFLE
(
2
,
3
,
0
,
1
));
mmtmp_im
=
_mm_shufflehi_epi16
(
mmtmp_im
,
_MM_SHUFFLE
(
2
,
3
,
0
,
1
));
mmtmp_im
=
_mm_sign_epi16
(
mmtmp_im
,
*
(
__m128i
*
)
&
conjugate14
[
0
]);
mmtmp_im
=
_mm_madd_epi16
(
mmtmp_im
,
rxptr128
[
0
]);
mmtmp_re
=
_mm_srai_epi32
(
mmtmp_re
,
15
);
mmtmp_im
=
_mm_srai_epi32
(
mmtmp_im
,
15
);
mmtmp_re2
=
_mm_unpacklo_epi32
(
mmtmp_re
,
mmtmp_im
);
mmtmp_im2
=
_mm_unpackhi_epi32
(
mmtmp_re
,
mmtmp_im
);
rxptr128_1_4fs
[
0
]
=
_mm_packs_epi32
(
mmtmp_re2
,
mmtmp_im2
);
rxptr128
++
;
rxptr128_1_4fs
++
;
fs1_4ptr128
++
;
#elif defined(__arm__)
fs1_4ptr128
[
0
]
=
vmulq_s16
(
fs1_4ptr128
[
0
],((
int16x8_t
*
)
conjugate14_2
)[
0
]);
mmtmp0
=
vmull_s16
(((
int16x4_t
*
)
rxptr128
)[
0
],((
int16x4_t
*
)
fs1_4ptr128
)[
0
]);
//mmtmp0 = [Re(ch[0])Re(rx[0]) Im(ch[0])Im(ch[0]) Re(ch[1])Re(rx[1]) Im(ch[1])Im(ch[1])]
mmtmp1
=
vmull_s16
(((
int16x4_t
*
)
rxptr128
)[
1
],((
int16x4_t
*
)
fs1_4ptr128
)[
1
]);
//mmtmp1 = [Re(ch[2])Re(rx[2]) Im(ch[2])Im(ch[2]) Re(ch[3])Re(rx[3]) Im(ch[3])Im(ch[3])]
mmtmp_re
=
vcombine_s32
(
vpadd_s32
(
vget_low_s32
(
mmtmp0
),
vget_high_s32
(
mmtmp0
)),
vpadd_s32
(
vget_low_s32
(
mmtmp1
),
vget_high_s32
(
mmtmp1
)));
//mmtmp_re = [Re(ch[0])Re(rx[0])+Im(ch[0])Im(ch[0]) Re(ch[1])Re(rx[1])+Im(ch[1])Im(ch[1]) Re(ch[2])Re(rx[2])+Im(ch[2])Im(ch[2]) Re(ch[3])Re(rx[3])+Im(ch[3])Im(ch[3])]
mmtmp0
=
vmull_s16
(
vrev32_s16
(
vmul_s16
(((
int16x4_t
*
)
rxptr128
)[
0
],
*
(
int16x4_t
*
)
conjugate14_2
)),
((
int16x4_t
*
)
fs1_4ptr128
)[
0
]);
//mmtmp0 = [-Im(ch[0])Re(rx[0]) Re(ch[0])Im(rx[0]) -Im(ch[1])Re(rx[1]) Re(ch[1])Im(rx[1])]
mmtmp1
=
vmull_s16
(
vrev32_s16
(
vmul_s16
(((
int16x4_t
*
)
rxptr128
)[
1
],
*
(
int16x4_t
*
)
conjugate14_2
)),
((
int16x4_t
*
)
fs1_4ptr128
)[
1
]);
//mmtmp1 = [-Im(ch[2])Re(rx[2]) Re(ch[2])Im(rx[2]) -Im(ch[3])Re(rx[3]) Re(ch[3])Im(rx[3])]
mmtmp_im
=
vcombine_s32
(
vpadd_s32
(
vget_low_s32
(
mmtmp0
),
vget_high_s32
(
mmtmp0
)),
vpadd_s32
(
vget_low_s32
(
mmtmp1
),
vget_high_s32
(
mmtmp1
)));
//mmtmp_im = [-Im(ch[0])Re(rx[0])+Re(ch[0])Im(rx[0]) -Im(ch[1])Re(rx[1])+Re(ch[1])Im(rx[1]) -Im(ch[2])Re(rx[2])+Re(ch[2])Im(rx[2]) -Im(ch[3])Re(rx[3])+Re(ch[3])Im(rx[3])]
rxptr128_1_4fs
[
0
]
=
vcombine_s16
(
vmovn_s32
(
mmtmp_re
),
vmovn_s32
(
mmtmp_im
));
rxptr128_1_4fs
++
;
rxptr128
++
;
fs1_4ptr128
++
;
#endif
}
}
}
openair1/PHY/impl_defs_lte.h
View file @
edf8e6ae
...
@@ -640,6 +640,11 @@ typedef struct {
...
@@ -640,6 +640,11 @@ typedef struct {
/// - second index: rx antenna [0..nb_antennas_rx[
/// - second index: rx antenna [0..nb_antennas_rx[
/// - third index: sample [0..]
/// - third index: sample [0..]
int32_t
**
rxdata
[
3
];
int32_t
**
rxdata
[
3
];
/// \brief Holds the last subframe of received data in time domain after removal of 1/4fs + 7.5kHz frequency offset.
/// - first index: secotr id [0..2] (hard coded)
/// - second index: rx antenna [0..nb_antennas_rx[
/// - third index: sample [0..samples_per_tti[
int32_t
**
rxdata_1_4fs
[
3
];
/// \brief Holds the last subframe of received data in time domain after removal of 7.5kHz frequency offset.
/// \brief Holds the last subframe of received data in time domain after removal of 7.5kHz frequency offset.
/// - first index: secotr id [0..2] (hard coded)
/// - first index: secotr id [0..2] (hard coded)
/// - second index: rx antenna [0..nb_antennas_rx[
/// - second index: rx antenna [0..nb_antennas_rx[
...
...
openair1/SCHED/phy_procedures_lte_eNb.c
View file @
edf8e6ae
...
@@ -2583,7 +2583,9 @@ void fep0(PHY_VARS_eNB *eNB,int slot) {
...
@@ -2583,7 +2583,9 @@ void fep0(PHY_VARS_eNB *eNB,int slot) {
int
l
;
int
l
;
// printf("fep0: slot %d\n",slot);
// printf("fep0: slot %d\n",slot);
if
(
fp
->
frame_type
==
TDD
)
remove_1_4_fs
(
eNB
,(
slot
&
1
)
+
(
proc
->
subframe_rx
<<
1
));
// TDD workaround for EXMIMO2 card
else
remove_7_5_kHz
(
eNB
,(
slot
&
1
)
+
(
proc
->
subframe_rx
<<
1
));
remove_7_5_kHz
(
eNB
,(
slot
&
1
)
+
(
proc
->
subframe_rx
<<
1
));
for
(
l
=
0
;
l
<
fp
->
symbols_per_tti
/
2
;
l
++
)
{
for
(
l
=
0
;
l
<
fp
->
symbols_per_tti
/
2
;
l
++
)
{
slot_fep_ul
(
fp
,
slot_fep_ul
(
fp
,
...
@@ -2724,8 +2726,14 @@ void eNB_fep_full(PHY_VARS_eNB *eNB) {
...
@@ -2724,8 +2726,14 @@ void eNB_fep_full(PHY_VARS_eNB *eNB) {
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME
(
VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_SLOT_FEP
,
1
);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME
(
VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_SLOT_FEP
,
1
);
start_meas
(
&
eNB
->
ofdm_demod_stats
);
start_meas
(
&
eNB
->
ofdm_demod_stats
);
// TDD workaround for EXMIMO2 card
if
(
fp
->
frame_type
==
TDD
)
{
remove_1_4_fs
(
eNB
,
proc
->
subframe_rx
<<
1
);
remove_1_4_fs
(
eNB
,
1
+
(
proc
->
subframe_rx
<<
1
));
}
else
{
remove_7_5_kHz
(
eNB
,
proc
->
subframe_rx
<<
1
);
remove_7_5_kHz
(
eNB
,
proc
->
subframe_rx
<<
1
);
remove_7_5_kHz
(
eNB
,
1
+
(
proc
->
subframe_rx
<<
1
));
remove_7_5_kHz
(
eNB
,
1
+
(
proc
->
subframe_rx
<<
1
));
}
for
(
l
=
0
;
l
<
fp
->
symbols_per_tti
/
2
;
l
++
)
{
for
(
l
=
0
;
l
<
fp
->
symbols_per_tti
/
2
;
l
++
)
{
slot_fep_ul
(
fp
,
slot_fep_ul
(
fp
,
&
eNB
->
common_vars
,
&
eNB
->
common_vars
,
...
...
targets/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band38.tm7.exmimo2.conf
View file @
edf8e6ae
...
@@ -32,7 +32,7 @@ eNBs =
...
@@ -32,7 +32,7 @@ eNBs =
prefix_type
=
"NORMAL"
;
prefix_type
=
"NORMAL"
;
eutra_band
=
38
;
eutra_band
=
38
;
downlink_frequency
=
2580000000
L
;
downlink_frequency
=
2580000000
L
;
uplink_frequency_offset
=
0
; //-
120000000
;
uplink_frequency_offset
=
-
192000
0
; //-
120000000
;
Nid_cell
=
0
;
Nid_cell
=
0
;
N_RB_DL
=
25
;
N_RB_DL
=
25
;
Nid_cell_mbsfn
=
0
;
Nid_cell_mbsfn
=
0
;
...
...
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