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Michael Black
OpenXG-RAN
Commits
a25d97bc
Commit
a25d97bc
authored
Nov 09, 2018
by
Raymond Knopp
Browse files
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Plain Diff
added polar encoding for up to 128 bit payloads. Tested with decoder up to 64
parent
136ed515
Changes
2
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2 changed files
with
78 additions
and
52 deletions
+78
-52
openair1/PHY/CODING/nrPolar_tools/nr_polar_defs.h
openair1/PHY/CODING/nrPolar_tools/nr_polar_defs.h
+2
-1
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
+76
-51
No files found.
openair1/PHY/CODING/nrPolar_tools/nr_polar_defs.h
View file @
a25d97bc
...
...
@@ -113,7 +113,8 @@ struct nrPolar_params {
uint64_t
**
G_N_tab
;
int
groupsize
;
int
*
rm_tab
;
uint64_t
cprime_tab
[
8
][
256
];
uint64_t
cprime_tab0
[
8
][
256
];
uint64_t
cprime_tab1
[
8
][
256
];
uint64_t
B_tab
[
8
][
256
];
uint32_t
*
crc256Table
;
uint8_t
**
extended_crc_generator_matrix
;
...
...
openair1/PHY/CODING/nrPolar_tools/nr_polar_encoder.c
View file @
a25d97bc
...
...
@@ -374,7 +374,7 @@ void build_polar_tables(t_nrPolar_paramsPtr polarParams) {
// build table b -> c'
AssertFatal
(
polarParams
->
K
>
32
,
"K = %d < 33, is not supported yet
\n
"
,
polarParams
->
K
);
AssertFatal
(
polarParams
->
K
<
65
,
"K = %d > 64, is not supported yet
\n
"
,
polarParams
->
K
);
AssertFatal
(
polarParams
->
K
<
129
,
"K = %d > 64, is not supported yet
\n
"
,
polarParams
->
K
);
int
bit_i
,
ip
;
...
...
@@ -386,12 +386,14 @@ void build_polar_tables(t_nrPolar_paramsPtr polarParams) {
if
(
byte
<
(
polarParams
->
K
>>
3
))
numbits
=
8
;
else
numbits
=
residue
;
for
(
int
val
=
0
;
val
<
256
;
val
++
)
{
polarParams
->
cprime_tab
[
byte
][
val
]
=
0
;
polarParams
->
cprime_tab0
[
byte
][
val
]
=
0
;
polarParams
->
cprime_tab1
[
byte
][
val
]
=
0
;
for
(
int
i
=
0
;
i
<
numbits
;
i
++
)
{
ip
=
polarParams
->
deinterleaving_pattern
[(
8
*
byte
)
+
i
];
AssertFatal
(
ip
<
64
,
"ip = %d
\n
"
,
ip
);
AssertFatal
(
ip
<
128
,
"ip = %d
\n
"
,
ip
);
bit_i
=
(
val
>>
i
)
&
1
;
polarParams
->
cprime_tab
[
byte
][
val
]
|=
(((
uint64_t
)
bit_i
)
<<
ip
);
if
(
ip
<
64
)
polarParams
->
cprime_tab0
[
byte
][
val
]
|=
(((
uint64_t
)
bit_i
)
<<
ip
);
else
polarParams
->
cprime_tab1
[
byte
][
val
]
|=
(((
uint64_t
)
bit_i
)
<<
(
ip
&
63
));
}
}
}
...
...
@@ -461,29 +463,57 @@ void polar_encoder_fast(int64_t *A,
AssertFatal
(
polarParams
->
K
>
32
,
"K = %d < 33, is not supported yet
\n
"
,
polarParams
->
K
);
AssertFatal
(
polarParams
->
K
<
65
,
"K = %d > 64, is not supported yet
\n
"
,
polarParams
->
K
);
uint64_t
B
=
0
,
Cprime
=
0
;
uint64_t
B
[
4
]
=
{
0
,
0
,
0
,
0
},
Cprime
[
4
]
=
{
0
,
0
,
0
,
0
}
;
int
bitlen
=
polarParams
->
payloadBits
;
// append crc
// append crc
AssertFatal
(
bitlen
<
129
,
"support for payloads <= 128 bits
\n
"
);
AssertFatal
(
polarParams
->
crcParityBits
==
24
,
"support for 24-bit crc only for now
\n
"
);
B
=
((
*
A
)
&
((((
uint64_t
)
1
)
<<
bitlen
)
-
1
))
|
((
uint64_t
)((
crcmask
^
(
crc24c
((
uint8_t
*
)
A
,
bitlen
)
>>
8
)))
<<
bitlen
);
uint8_t
*
Bbyte
=
(
uint8_t
*
)
&
B
;
int
bitlen0
=
bitlen
;
for
(
int
i
=
0
;
i
<
(
1
+
(
bitlen
>>
6
));
i
++
)
if
(
bitlen0
<
64
)
B
[
i
]
=
((
A
[
i
])
&
((((
uint64_t
)
1
)
<<
bitlen0
)
-
1
))
|
((
uint64_t
)((
crcmask
^
(
crc24c
((
uint8_t
*
)
A
,
bitlen0
)
>>
8
)))
<<
bitlen0
);
else
{
B
[
i
]
=
A
[
i
];
bitlen0
-=
64
;
}
uint8_t
*
Bbyte
=
(
uint8_t
*
)
B
;
// for each byte of B, lookup in corresponding table for 64-bit word corresponding to that byte and its position
Cprime
=
polarParams
->
cprime_tab
[
0
][
Bbyte
[
0
]]
|
polarParams
->
cprime_tab
[
1
][
Bbyte
[
1
]]
|
polarParams
->
cprime_tab
[
2
][
Bbyte
[
2
]]
|
polarParams
->
cprime_tab
[
3
][
Bbyte
[
3
]]
|
polarParams
->
cprime_tab
[
4
][
Bbyte
[
4
]]
|
polarParams
->
cprime_tab
[
5
][
Bbyte
[
5
]]
|
polarParams
->
cprime_tab
[
6
][
Bbyte
[
6
]]
|
polarParams
->
cprime_tab
[
7
][
Bbyte
[
7
]];
if
(
bitlen
<
65
)
Cprime
[
0
]
=
polarParams
->
cprime_tab0
[
0
][
Bbyte
[
0
]]
|
polarParams
->
cprime_tab0
[
1
][
Bbyte
[
1
]]
|
polarParams
->
cprime_tab0
[
2
][
Bbyte
[
2
]]
|
polarParams
->
cprime_tab0
[
3
][
Bbyte
[
3
]]
|
polarParams
->
cprime_tab0
[
4
][
Bbyte
[
4
]]
|
polarParams
->
cprime_tab0
[
5
][
Bbyte
[
5
]]
|
polarParams
->
cprime_tab0
[
6
][
Bbyte
[
6
]]
|
polarParams
->
cprime_tab0
[
7
][
Bbyte
[
7
]];
else
if
(
bitlen
<
129
)
{
Cprime
[
0
]
=
polarParams
->
cprime_tab0
[
0
][
Bbyte
[
0
]]
|
polarParams
->
cprime_tab0
[
1
][
Bbyte
[
1
]]
|
polarParams
->
cprime_tab0
[
2
][
Bbyte
[
2
]]
|
polarParams
->
cprime_tab0
[
3
][
Bbyte
[
3
]]
|
polarParams
->
cprime_tab0
[
4
][
Bbyte
[
4
]]
|
polarParams
->
cprime_tab0
[
5
][
Bbyte
[
5
]]
|
polarParams
->
cprime_tab0
[
6
][
Bbyte
[
6
]]
|
polarParams
->
cprime_tab0
[
7
][
Bbyte
[
7
]];
Cprime
[
1
]
=
polarParams
->
cprime_tab1
[
0
][
Bbyte
[
0
]]
|
polarParams
->
cprime_tab1
[
1
][
Bbyte
[
1
]]
|
polarParams
->
cprime_tab1
[
2
][
Bbyte
[
2
]]
|
polarParams
->
cprime_tab1
[
3
][
Bbyte
[
3
]]
|
polarParams
->
cprime_tab1
[
4
][
Bbyte
[
4
]]
|
polarParams
->
cprime_tab1
[
5
][
Bbyte
[
5
]]
|
polarParams
->
cprime_tab1
[
6
][
Bbyte
[
6
]]
|
polarParams
->
cprime_tab1
[
7
][
Bbyte
[
7
]];
}
#ifdef DEBUG_POLAR_ENCODER
printf
(
"A %llx B %llx Cprime %llx (payload bits %d,crc %x)
\n
"
,
(
unsigned
long
long
)((
*
A
)
&
((((
uint64_t
)
1
)
<<
bitlen
)
-
1
)),
(
unsigned
long
long
)
B
,(
unsigned
long
long
)
Cprime
,
polarParams
->
payloadBits
,
(
unsigned
long
long
)((
A
[
0
]
)
&
((((
uint64_t
)
1
)
<<
bitlen
)
-
1
)),
(
unsigned
long
long
)
B
[
0
],(
unsigned
long
long
)
Cprime
[
0
]
,
polarParams
->
payloadBits
,
crc24c
((
uint8_t
*
)
A
,
bitlen
));
#endif
/* printf("Bbytes : %x.%x.%x.%x.%x.%x.%x.%x\n",Bbyte[0],Bbyte[1],Bbyte[2],Bbyte[3],Bbyte[4],Bbyte[5],Bbyte[6],Bbyte[7]);
...
...
@@ -499,7 +529,7 @@ void polar_encoder_fast(int64_t *A,
// now do Gu product (here using 64-bit XORs, we can also do with SIMD after)
// here we're reading out the bits LSB -> MSB, is this correct w.r.t. 3GPP ?
uint64_t
Cprime_i
=
-
(
Cprime
&
1
);
// this converts bit 0 as, 0 => 0000x00, 1 => 1111x11
uint64_t
Cprime_i
;
/* printf("%llx Cprime_0 (%llx) G %llx,%llx,%llx,%llx,%llx,%llx,%llx,%llx\n",Cprime_i,Cprime &1,
polarParams->G_N_tab[0][0],
polarParams->G_N_tab[0][1],
...
...
@@ -509,40 +539,35 @@ void polar_encoder_fast(int64_t *A,
polarParams->G_N_tab[0][5],
polarParams->G_N_tab[0][6],
polarParams->G_N_tab[0][7]);*/
uint64_t
D
[
8
];
uint64_t
D
[
8
]
=
{
0
,
0
,
0
,
0
,
0
,
0
,
0
,
0
};
int
off
=
0
;
int
len
=
polarParams
->
K
;
for
(
int
j
=
0
;
j
<
(
1
+
(
polarParams
->
K
>>
6
));
j
++
,
off
+=
64
,
len
-=
64
)
{
for
(
int
i
=
0
;
i
<
((
len
>
63
)
?
64
:
len
);
i
++
)
{
D
[
0
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
0
];
D
[
1
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
1
];
D
[
2
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
2
];
D
[
3
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
3
];
D
[
4
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
4
];
D
[
5
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
5
];
D
[
6
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
6
];
D
[
7
]
=
Cprime_i
&
polarParams
->
G_N_tab
[
0
][
7
];
for
(
int
i
=
1
;
i
<
polarParams
->
K
;
i
++
)
{
Cprime_i
=
-
((
Cprime
>>
i
)
&
1
);
Cprime_i
=
-
((
Cprime
[
j
]
>>
i
)
&
1
);
// this converts bit 0 as, 0 => 0000x00, 1 => 1111x11
#ifdef DEBUG_POLAR_ENCODER
printf
(
"%llx Cprime_%d (%llx) G %llx,%llx,%llx,%llx,%llx,%llx,%llx,%llx
\n
"
,
Cprime_i
,
i
,(
Cprime
>>
i
)
&
1
,
polarParams
->
G_N_tab
[
i
][
0
],
polarParams
->
G_N_tab
[
i
][
1
],
polarParams
->
G_N_tab
[
i
][
2
],
polarParams
->
G_N_tab
[
i
][
3
],
polarParams
->
G_N_tab
[
i
][
4
],
polarParams
->
G_N_tab
[
i
][
5
],
polarParams
->
G_N_tab
[
i
][
6
],
polarParams
->
G_N_tab
[
i
][
7
]);
printf
(
"%llx Cprime_%d (%llx) G %llx,%llx,%llx,%llx,%llx,%llx,%llx,%llx
\n
"
,
Cprime_i
,
i
,(
Cprime
[
j
]
>>
i
)
&
1
,
polarParams
->
G_N_tab
[
i
][
0
],
polarParams
->
G_N_tab
[
i
][
1
],
polarParams
->
G_N_tab
[
i
][
2
],
polarParams
->
G_N_tab
[
i
][
3
],
polarParams
->
G_N_tab
[
i
][
4
],
polarParams
->
G_N_tab
[
i
][
5
],
polarParams
->
G_N_tab
[
i
][
6
],
polarParams
->
G_N_tab
[
i
][
7
]);
#endif
D
[
0
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
0
]);
D
[
1
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
1
]);
D
[
2
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
2
]);
D
[
3
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
3
]);
D
[
4
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
4
]);
D
[
5
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
5
]);
D
[
6
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
6
]);
D
[
7
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
7
]);
D
[
0
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
0
]);
D
[
1
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
1
]);
D
[
2
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
2
]);
D
[
3
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
3
]);
D
[
4
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
4
]);
D
[
5
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
5
]);
D
[
6
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
6
]);
D
[
7
]
^=
(
Cprime_i
&
polarParams
->
G_N_tab
[
i
][
7
]);
}
}
#ifdef DEBUG_POLAR_ENCODER
printf
(
"D %llx,%llx,%llx,%llx,%llx,%llx,%llx,%llx
\n
"
,
...
...
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