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Elphel
x393
Commits
23ea64ab
Commit
23ea64ab
authored
Dec 11, 2017
by
Andrey Filippov
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Working on phase rotator for partial pixel shifts
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10056a60
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23ea64ab
/*!
* <b>Module:</b> phase_rotator
* @file phase_rotator.v
* @date 2017-12-11
* @author eyesis
*
* @brief 2-d phase rotator in frequency domain (subpixel shift)
*
* @copyright Copyright (c) 2017 <set up in Preferences-Verilog/VHDL Editor-Templates> .
*
* <b>License </b>
*
* phase_rotator.v is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* phase_rotator.v is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/> .
*
* Additional permission under GNU GPL version 3 section 7:
* If you modify this Program, or any covered work, by linking or combining it
* with independent modules provided by the FPGA vendor only (this permission
* does not extend to any 3-rd party modules, "soft cores" or macros) under
* different license terms solely for the purpose of generating binary "bitstream"
* files and/or simulating the code, the copyright holders of this Program give
* you the right to distribute the covered work without those independent modules
* as long as the source code for them is available from the FPGA vendor free of
* charge, and there is no dependence on any encrypted modules for simulating of
* the combined code. This permission applies to you if the distributed code
* contains all the components and scripts required to completely simulate it
* with at least one of the Free Software programs.
*/
`timescale
1
ns
/
1
ps
module
phase_rotator
#(
parameter
FD_WIDTH
=
25
,
// input/output data width, signed
parameter
SHIFT_WIDTH
=
7
,
// x/y subpixel shift, signed -0.5<=shift<0.5
parameter
DSP_B_WIDTH
=
18
,
// signed, output from sin/cos ROM
parameter
DSP_A_WIDTH
=
25
,
parameter
DSP_P_WIDTH
=
48
)(
input
clk
,
//!< system clock, posedge
input
rst
,
//!< sync reset
input
start
,
//!< single-cycle start pulse that goes 1 cycle before first data
input
signed
[
SHIFT_WIDTH
-
1
:
0
]
shift_h
,
//!< subpixel shift horizontal
input
signed
[
SHIFT_WIDTH
-
1
:
0
]
shift_v
,
//!< subpixel shift vertical
// input data CC,CS,SC,SS in column scan order (matching DTT)
input
signed
[
FD_WIDTH
-
1
:
0
]
fd_din
,
//!< frequency domain data in
output
reg
signed
[
FD_WIDTH
-
1
:
0
]
fd_out
,
//!< frequency domain data in
output
reg
pre_first_out
,
//!< 1 cycle before output data valid
output
reg
fd_dv
//!< output data valid
)
;
// Generating cos_hor, sin_hor, cos_vert, sin_vert coefficients and cosine and sine signs for both horizontal and vertical
// passes. For continuing operation, the sequence of the coefficients should be as following (starting at the same time as CC0):
// CV62-SV62-CH00-SH00-CV63-SV63-CH01-SH01-CV0-SV0-..., where*V62, *V63 - data from the previous tile.
// Signed subpixel shifts in the range [-0.5,0.5) are converted to sign and [0,0.5] and both limits are fit to the same slot as
// the shift -0.5 : cos((i+0.5)/16*pi), -sin((i+0.5)/16*pi) for i=0..7 is symmetrical around the center (odd for sine, even - cosine)
// ROM input MSB - 0- cos, 1 - sin, 3 LSB s - index (0..7). Signs for cos and sin are passed to DSPs
// shift i ROM A[8:3] ROM A[2:0] sign cos sign sin
// 1000000 (-0.5) 000 0 000 0 1
// 001 0 001 0 1
// 010 0 010 0 1
// 011 0 011 0 1
// 100 0 011 1 1
// 101 0 010 1 1
// 110 0 001 1 1
// 111 0 000 1 1
//
// 1xxxxxx (<0) nnn -xxxxxx nnn 0 1
//
// 0000000 (==0) nnn 0 100 0 0
//
// 0xxxxxx (>0) nnn xxxxxx nnn 0 0
reg
[
5
:
0
]
start_d
;
// delayed versions of start (TODO: adjust length)
reg
[
7
:
0
]
cntr_h
;
// input sample counter
reg
run_h
;
wire
[
7
:
0
]
cntr_v
;
// delayed sample counter
wire
run_v
;
wire
run_hv
=
run_h
||
run_v
;
reg
[
2
:
0
]
hv_index
;
// horizontal/vertical index
reg
[
1
:
0
]
hv_phase
;
//
reg
hv_sin
;
// 0 - cos, 1 - sin
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_hr
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_v0
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_vr
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_hv
;
// combined horizonta and vertical shifts to match cntr_mux;
reg
sign_cs
;
// sign for cos / sin, feed to DSP
reg
[
SHIFT_WIDTH
-
2
:
0
]
rom_a_shift
;
// ~shift absolute value
reg
[
2
:
0
]
rom_a_indx
;
// rom index (hor/vert)
reg
rom_a_sin
;
// rom cos =0; sin = 1
wire
[
SHIFT_WIDTH
+
2
:
0
]
rom_a
=
{
rom_a_sin
,
rom_a_shift
,
rom_a_indx
};
wire
shift_ends_0
=
shift_hv
[
SHIFT_WIDTH
-
2
:
0
]
==
0
;
reg
[
1
:
0
]
rom_re_regen
;
wire
signed
[
DSP_B_WIDTH
-
1
:
0
]
cos_sin_w
;
always
@
(
posedge
clk
)
begin
if
(
rst
)
start_d
<=
0
;
else
start_d
<=
{
start_d
[
4
:
0
]
,
start
};
if
(
start
)
shift_hr
<=
shift_h
;
if
(
start
)
shift_v0
<=
shift_v
;
if
(
start_d
[
5
])
shift_vr
<=
shift_v0
;
if
(
rst
)
run_h
<=
0
;
else
if
(
start_d
[
0
])
run_h
<=
1
;
else
if
(
&
cntr_h
)
run_h
<=
0
;
if
(
!
run_h
)
cntr_h
<=
0
;
else
cntr_h
<=
cntr_h
+
1
;
if
(
!
run_hv
)
hv_phase
<=
0
;
else
hv_phase
<=
hv_phase
+
1
;
// combine horizontal and vertical counters and shifts to feed to ROM
hv_index
<=
(
run_v
&&
cntr_v
[
1
])
?
cntr_v
[
4
:
2
]
:
cntr_h
[
7
:
5
]
;
// input data "down first" (transposed)
hv_sin
<=
(
run_v
&&
cntr_v
[
1
])
?
cntr_v
[
0
]
:
cntr_h
[
0
]
;
shift_hv
<=
(
run_v
&&
cntr_v
[
1
])
?
shift_vr
:
shift_hr
;
// convert index, shift to ROM address
rom_a_indx
<=
shift_ends_0
?
(
shift_hv
[
SHIFT_WIDTH
-
1
]
?{
1'b0
,
hv_index
[
2
]
?~
hv_index
[
1
:
0
]
:
hv_index
[
1
:
0
]
}:
3'h4
)
:
hv_index
;
rom_a_shift
<=
shift_hv
[
SHIFT_WIDTH
-
1
]
?
-
shift_hv
[
SHIFT_WIDTH
-
2
:
0
]
:
shift_hv
[
SHIFT_WIDTH
-
2
:
0
]
;
rom_a_sin
<=
hv_sin
;
sign_cs
<=
shift_hv
[
SHIFT_WIDTH
-
1
]
&
(
hv_sin
|
(
shift_ends_0
&
hv_index
[
2
]))
;
rom_re_regen
<=
{
rom_re_regen
[
0
]
,
run_hv
};
end
dly_var
#(
.
WIDTH
(
9
)
,
.
DLY_WIDTH
(
4
)
)
dly_cntrv_i
(
.
clk
(
clk
)
,
// input
.
rst
(
rst
)
,
// input
.
dly
(
4'h3
)
,
// input[3:0]
.
din
(
{
run_h
,
cntr_h
}
)
,
// input[0:0]
.
dout
(
{
run_v
,
cntr_v
}
)
// output[0:0]
)
;
ram18tp_var_w_var_r
#(
.
REGISTERS_A
(
1
)
,
.
REGISTERS_B
(
1
)
,
.
LOG2WIDTH_A
(
4
)
,
.
LOG2WIDTH_B
(
4
)
`ifdef
PRELOAD_BRAMS
`include
"mclt_fold_rom.vh"
// TODO: put real!
`endif
)
i_mclt_rot_rom
(
.
clk_a
(
clk
)
,
// input
.
addr_a
(
rom_a
)
,
// input[9:0]
.
en_a
(
rom_re_regen
[
0
])
,
// input
.
regen_a
(
rom_re_regen
[
1
])
,
// input
.
we_a
(
1'b0
)
,
// input
.
data_out_a
(
cos_sin_w
)
,
// output[17:0]
.
data_in_a
(
18'b0
)
,
// input[17:0]
.
clk_b
(
1'b0
)
,
// input
.
addr_b
(
10'b0
)
,
// input[9:0]
.
en_b
(
1'b0
)
,
// input
.
regen_b
(
1'b0
)
,
// input
.
we_b
(
1'b0
)
,
// input
.
data_out_b
()
,
// output[17:0]
.
data_in_b
(
18'b0
)
// input[17:0]
)
;
// horizontal shift stage
dsp_ma_preadd
#(
.
B_WIDTH
(
DSP_B_WIDTH
)
,
.
A_WIDTH
(
DSP_A_WIDTH
)
,
.
P_WIDTH
(
DSP_P_WIDTH
)
,
.
A_INPUT
(
"DIRECT"
)
,
.
B_INPUT
(
"DIRECT"
)
)
dsp_1_i
(
.
clk
()
,
// input
.
rst
()
,
// input
.
bin
()
,
// input[17:0] signed
.
ceb1
()
,
// input
.
ceb2
()
,
// input
.
selb
()
,
// input
.
ain
()
,
// input[24:0] signed
.
cea1
()
,
// input
.
cea2
()
,
// input
.
din
()
,
// input[24:0] signed
.
ced
()
,
// input
.
cead
()
,
// input
.
sela
()
,
// input
.
en_a
()
,
// input
.
en_d
()
,
// input
.
sub_a
()
,
// input
.
neg_m
()
,
// input
.
accum
()
,
// input
.
pout
()
// output[47:0] signed
)
;
dsp_ma_preadd
#(
.
B_WIDTH
(
DSP_B_WIDTH
)
,
.
A_WIDTH
(
DSP_A_WIDTH
)
,
.
P_WIDTH
(
DSP_P_WIDTH
)
,
.
A_INPUT
(
"DIRECT"
)
,
.
B_INPUT
(
"CASCADE"
)
)
dsp_2_i
(
.
clk
()
,
// input
.
rst
()
,
// input
.
bin
()
,
// input[17:0] signed
.
ceb1
()
,
// input
.
ceb2
()
,
// input
.
selb
()
,
// input
.
ain
()
,
// input[24:0] signed
.
cea1
()
,
// input
.
cea2
()
,
// input
.
din
()
,
// input[24:0] signed
.
ced
()
,
// input
.
cead
()
,
// input
.
sela
()
,
// input
.
en_a
()
,
// input
.
en_d
()
,
// input
.
sub_a
()
,
// input
.
neg_m
()
,
// input
.
accum
()
,
// input
.
pout
()
// output[47:0] signed
)
;
// vertical shift stage
dsp_ma_preadd
#(
.
B_WIDTH
(
DSP_B_WIDTH
)
,
.
A_WIDTH
(
DSP_A_WIDTH
)
,
.
P_WIDTH
(
DSP_P_WIDTH
)
,
.
A_INPUT
(
"DIRECT"
)
,
.
B_INPUT
(
"DIRECT"
)
)
dsp_3_i
(
.
clk
()
,
// input
.
rst
()
,
// input
.
bin
()
,
// input[17:0] signed
.
ceb1
()
,
// input
.
ceb2
()
,
// input
.
selb
()
,
// input
.
ain
()
,
// input[24:0] signed
.
cea1
()
,
// input
.
cea2
()
,
// input
.
din
()
,
// input[24:0] signed
.
ced
()
,
// input
.
cead
()
,
// input
.
sela
()
,
// input
.
en_a
()
,
// input
.
en_d
()
,
// input
.
sub_a
()
,
// input
.
neg_m
()
,
// input
.
accum
()
,
// input
.
pout
()
// output[47:0] signed
)
;
dsp_ma_preadd
#(
.
B_WIDTH
(
DSP_B_WIDTH
)
,
.
A_WIDTH
(
DSP_A_WIDTH
)
,
.
P_WIDTH
(
DSP_P_WIDTH
)
,
.
A_INPUT
(
"DIRECT"
)
,
.
B_INPUT
(
"CASCADE"
)
)
dsp_4_i
(
.
clk
()
,
// input
.
rst
()
,
// input
.
bin
()
,
// input[17:0] signed
.
ceb1
()
,
// input
.
ceb2
()
,
// input
.
selb
()
,
// input
.
ain
()
,
// input[24:0] signed
.
cea1
()
,
// input
.
cea2
()
,
// input
.
din
()
,
// input[24:0] signed
.
ced
()
,
// input
.
cead
()
,
// input
.
sela
()
,
// input
.
en_a
()
,
// input
.
en_d
()
,
// input
.
sub_a
()
,
// input
.
neg_m
()
,
// input
.
accum
()
,
// input
.
pout
()
// output[47:0] signed
)
;
endmodule
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