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Elphel
x393
Commits
632ab621
Commit
632ab621
authored
Dec 22, 2017
by
Andrey Filippov
Browse files
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working more on Bayer version of the MCLT
parent
c6bdde56
Changes
5
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Showing
5 changed files
with
424 additions
and
38 deletions
+424
-38
mclt16x16.v
dsp/mclt16x16.v
+2
-6
mclt16x16_bayer.v
dsp/mclt16x16_bayer.v
+244
-15
mclt_bayer_fold.v
dsp/mclt_bayer_fold.v
+7
-2
phase_rotator.v
dsp/phase_rotator.v
+3
-0
mclt_test_02.sav
mclt_test_02.sav
+168
-15
No files found.
dsp/mclt16x16.v
View file @
632ab621
...
@@ -453,11 +453,8 @@ D11 - negate for mode 3 (SS)
...
@@ -453,11 +453,8 @@ D11 - negate for mode 3 (SS)
// frequency domain, high address bit - page, 2 next - mode, 6 LSBs - transposed FD data (vertical first)
// frequency domain, high address bit - page, 2 next - mode, 6 LSBs - transposed FD data (vertical first)
wire
[
8
:
0
]
dtt_out_ram_wa
=
{
dtt_out_ram_wah
,
dtt_out_wa16
};
wire
[
8
:
0
]
dtt_out_ram_wa
=
{
dtt_out_ram_wah
,
dtt_out_wa16
};
reg
[
7
:
0
]
dtt_dly_cntr
;
reg
[
7
:
0
]
dtt_dly_cntr
;
reg
[
8
:
0
]
dtt_rd_cntr
;
// counter for dtt readout to rotator
reg
[
8
:
0
]
dtt_rd_cntr
;
// counter for dtt readout to rotator
// wire [8:0] dtt_rd_ra = {dtt_rd_cntr[8],dtt_rd_cntr[1:0],dtt_rd_cntr[7:2]}; // page, mode, frequency
wire
[
8
:
0
]
dtt_rd_ra
=
{
dtt_rd_cntr
[
8
]
,
dtt_rd_cntr
[
0
]
,
dtt_rd_cntr
[
1
]
,
dtt_rd_cntr
[
7
:
2
]
};
// page, mode, frequency
wire
[
8
:
0
]
dtt_rd_ra
=
{
dtt_rd_cntr
[
8
]
,
dtt_rd_cntr
[
0
]
,
dtt_rd_cntr
[
1
]
,
dtt_rd_cntr
[
7
:
2
]
};
// page, mode, frequency
reg
[
2
:
0
]
dtt_rd_regen_dv
;
// dtt output buffer mem read, register enable, data valid
reg
[
2
:
0
]
dtt_rd_regen_dv
;
// dtt output buffer mem read, register enable, data valid
wire
[
35
:
0
]
dtt_rd_data_w
;
// high bits are not used
wire
[
35
:
0
]
dtt_rd_data_w
;
// high bits are not used
...
@@ -466,7 +463,6 @@ D11 - negate for mode 3 (SS)
...
@@ -466,7 +463,6 @@ D11 - negate for mode 3 (SS)
wire
dtt_first_quad_out
=
~
dtt_out_ram_cntr
[
3
]
&
~
dtt_out_ram_cntr
[
2
]
;
wire
dtt_first_quad_out
=
~
dtt_out_ram_cntr
[
3
]
&
~
dtt_out_ram_cntr
[
2
]
;
// reg [9:0] dtt_out_ram_cntr;
always
@
(
posedge
clk
)
begin
always
@
(
posedge
clk
)
begin
if
(
rst
)
dtt_out_ram_cntr
<=
0
;
if
(
rst
)
dtt_out_ram_cntr
<=
0
;
else
if
(
dtt_inc16
)
dtt_out_ram_cntr
<=
dtt_out_ram_cntr
+
1
;
else
if
(
dtt_inc16
)
dtt_out_ram_cntr
<=
dtt_out_ram_cntr
+
1
;
...
@@ -507,7 +503,6 @@ D11 - negate for mode 3 (SS)
...
@@ -507,7 +503,6 @@ D11 - negate for mode 3 (SS)
.
clk
(
clk
)
,
// input
.
clk
(
clk
)
,
// input
.
rst
(
rst
)
,
// input
.
rst
(
rst
)
,
// input
.
start
(
dtt_start
)
,
// input
.
start
(
dtt_start
)
,
// input
// .mode (dtt_mode), // input[1:0]
.
mode
(
{
dtt_mode
[
0
]
,
dtt_mode
[
1
]
}
)
,
// input[1:0]
.
mode
(
{
dtt_mode
[
0
]
,
dtt_mode
[
1
]
}
)
,
// input[1:0]
.
xin
(
dtt_r_data
)
,
// input[24:0] signed
.
xin
(
dtt_r_data
)
,
// input[24:0] signed
.
pre_last_in
()
,
// output reg
.
pre_last_in
()
,
// output reg
...
@@ -554,7 +549,8 @@ D11 - negate for mode 3 (SS)
...
@@ -554,7 +549,8 @@ D11 - negate for mode 3 (SS)
.
start
(
dtt_start_out
)
,
// input
.
start
(
dtt_start_out
)
,
// input
// are these shift OK? Will need to be valis only @ dtt_start_out
// are these shift OK? Will need to be valis only @ dtt_start_out
.
shift_h
(
x_shft_r4
)
,
// input[6:0] signed
.
shift_h
(
x_shft_r4
)
,
// input[6:0] signed
.
shift_v
(
y_shft_r4
)
,
// input[6:0] signed
.
shift_v
(
y_shft_r4
)
,
// input[6:0] signed
.
inv_checker
(
1'b0
)
,
// input only used for Bayer mosaic data
.
fd_din
(
dtt_rd_data
)
,
// input[24:0] signed. Expected latency = 3 from start
.
fd_din
(
dtt_rd_data
)
,
// input[24:0] signed. Expected latency = 3 from start
.
fd_out
(
dout
)
,
// output[24:0] reg signed
.
fd_out
(
dout
)
,
// output[24:0] reg signed
.
pre_first_out
(
pre_first_out
)
,
// output reg
.
pre_first_out
(
pre_first_out
)
,
// output reg
...
...
dsp/mclt16x16_bayer.v
View file @
632ab621
...
@@ -68,9 +68,18 @@ module mclt16x16_bayer#(
...
@@ -68,9 +68,18 @@ module mclt16x16_bayer#(
output
[
PIX_ADDR_WIDTH
-
1
:
0
]
pix_addr
,
//!< external pixel buffer address
output
[
PIX_ADDR_WIDTH
-
1
:
0
]
pix_addr
,
//!< external pixel buffer address
output
pix_re
,
//!< pixel read enable (sync with mpixel_a)
output
pix_re
,
//!< pixel read enable (sync with mpixel_a)
output
pix_page
,
//!< copy pixel page (should be externally combined with first color)
output
pix_page
,
//!< copy pixel page (should be externally combined with first color)
input
[
PIXEL_WIDTH
-
1
:
0
]
pix_d
//!< pixel data, latency = 2 from pixel address
input
[
PIXEL_WIDTH
-
1
:
0
]
pix_d
,
//!< pixel data, latency = 2 from pixel address
output
pre_busy
,
//!< start should come each 256-th cycle (next after pre_last_in), and not after pre_busy)
output
pre_last_in
,
//!< may increment page
output
pre_first_out
,
//!< next will output first of DCT/DCT coefficients
output
pre_last_out
,
//!< next will be last output of DST/DST coefficients
output
[
7
:
0
]
out_addr
,
//!< address to save coefficients, 2 MSBs - mode (CC,SC,CS,SS), others - down first
output
dv
,
//!< output data valid
output
signed
[
OUT_WIDTH
-
1
:
0
]
dout0
,
//!<frequency domain data output (even samples)
output
signed
[
OUT_WIDTH
-
1
:
0
]
dout1
//!<frequency domain data output (odd s amples)
)
;
)
;
localparam
DTT_OUT_DELAY
=
99
;
// 191; // start output to sin/cos rotator, ~=3/4 of 256
localparam
DTT_OUT_DELAY
=
128
;
// 191; // start output to sin/cos rotator, with checker - 2*64 +/=?
localparam
DTT_IN_DELAY
=
62
;
// 69; // wa -ra min = 1
localparam
DTT_IN_DELAY
=
62
;
// 69; // wa -ra min = 1
reg
[
1
:
0
]
start_r
;
reg
[
1
:
0
]
start_r
;
...
@@ -83,6 +92,10 @@ module mclt16x16_bayer#(
...
@@ -83,6 +92,10 @@ module mclt16x16_bayer#(
reg
[
SHIFT_WIDTH
-
1
:
0
]
y_shft_r3
;
// registered @ start_dtt
reg
[
SHIFT_WIDTH
-
1
:
0
]
y_shft_r3
;
// registered @ start_dtt
reg
[
SHIFT_WIDTH
-
1
:
0
]
x_shft_r4
;
// registered @ dtt_start_first_fill
reg
[
SHIFT_WIDTH
-
1
:
0
]
x_shft_r4
;
// registered @ dtt_start_first_fill
reg
[
SHIFT_WIDTH
-
1
:
0
]
y_shft_r4
;
// registered @ dtt_start_first_fill
reg
[
SHIFT_WIDTH
-
1
:
0
]
y_shft_r4
;
// registered @ dtt_start_first_fill
reg
inv_checker_r
;
reg
inv_checker_r2
;
reg
inv_checker_r3
;
reg
inv_checker_r4
;
// wire signed [WND_WIDTH-1:0] window; //!< msb==0, always positive
// wire signed [WND_WIDTH-1:0] window; //!< msb==0, always positive
wire
[
1
:
0
]
signs
;
//!< bit 0: sign to add to dtt-cc input, bit 1: sign to add to dtt-cs input
wire
[
1
:
0
]
signs
;
//!< bit 0: sign to add to dtt-cc input, bit 1: sign to add to dtt-cs input
...
@@ -133,31 +146,39 @@ module mclt16x16_bayer#(
...
@@ -133,31 +146,39 @@ module mclt16x16_bayer#(
wire
signed
[
35
:
0
]
dtt_r_data_w
;
// high bits are not used
wire
signed
[
35
:
0
]
dtt_r_data_w
;
// high bits are not used
wire
signed
[
DTT_IN_WIDTH
-
1
:
0
]
dtt_r_data
=
dtt_r_data_w
[
DTT_IN_WIDTH
-
1
:
0
]
;
wire
signed
[
DTT_IN_WIDTH
-
1
:
0
]
dtt_r_data
=
dtt_r_data_w
[
DTT_IN_WIDTH
-
1
:
0
]
;
reg
pre_last_out_r
;
wire
pre_last_in_w
;
assign
pre_last_out
=
pre_last_out_r
;
assign
pre_busy
=
pre_busy_r
||
start
||
(
!
pre_last_in_w
&&
phases
[
0
])
;
assign
pre_last_in
=
pre_last_in_w
;
always
@
(
posedge
clk
)
begin
always
@
(
posedge
clk
)
begin
if
(
start
)
begin
if
(
start
)
begin
x_shft_r
<=
x_shft
;
x_shft_r
<=
x_shft
;
y_shft_r
<=
y_shft
;
y_shft_r
<=
y_shft
;
inv_checker_r
<=
inv_checker
;
end
end
start_r
<=
{
start_r
[
0
]
,
start
};
start_r
<=
{
start_r
[
0
]
,
start
};
if
(
start_r
[
1
])
begin
// same latency as mpix_a_w
if
(
start_r
[
1
])
begin
// same latency as mpix_a_w
x_shft_r2
<=
x_shft_r
;
// use for the window
x_shft_r2
<=
x_shft_r
;
// use for the window
y_shft_r2
<=
y_shft_r
;
y_shft_r2
<=
y_shft_r
;
inv_checker_r2
<=
inv_checker_r
;
end
end
if
(
start_dtt
)
begin
if
(
start_dtt
)
begin
x_shft_r3
<=
x_shft_r2
;
x_shft_r3
<=
x_shft_r2
;
y_shft_r3
<=
y_shft_r2
;
y_shft_r3
<=
y_shft_r2
;
inv_checker_r3
<=
inv_checker_r2
;
end
end
/*
if
(
dtt_start_first_fill
)
begin
if
(
dtt_start_first_fill
)
begin
x_shft_r4
<=
x_shft_r3
;
x_shft_r4
<=
x_shft_r3
;
y_shft_r4
<=
y_shft_r3
;
y_shft_r4
<=
y_shft_r3
;
inv_checker_r4
<=
inv_checker_r3
;
end
end
*/
if
(
phases
[
8
])
begin
if
(
phases
[
8
])
begin
pix_d_r
<=
pix_d
;
pix_d_r
<=
pix_d
;
window_r
<=
window_w
;
window_r
<=
window_w
;
...
@@ -246,10 +267,11 @@ module mclt16x16_bayer#(
...
@@ -246,10 +267,11 @@ module mclt16x16_bayer#(
.
pix_addr
(
pix_addr
)
,
// output[8:0]
.
pix_addr
(
pix_addr
)
,
// output[8:0]
.
pix_re
(
pix_re
)
,
// output
.
pix_re
(
pix_re
)
,
// output
.
pix_page
(
pix_page
)
,
// output
.
pix_page
(
pix_page
)
,
// output
.
window
(
window_w
)
,
// output[17:0] signed
.
window
(
window_w
)
,
// output[17:0] signed
.
signs
(
signs
)
,
// output[1:0]
.
signs
(
signs
)
,
// output[1:0]
.
phases
(
phases
)
,
// output[7:0]
.
phases
(
phases
)
,
// output[7:0]
.
var_first
(
var_first
)
// output reg
.
var_first
(
var_first
)
,
// output reg
.
pre_last_in
(
pre_last_in_w
)
// output reg
)
;
)
;
dly_var
#(
dly_var
#(
...
@@ -280,10 +302,9 @@ module mclt16x16_bayer#(
...
@@ -280,10 +302,9 @@ module mclt16x16_bayer#(
.
web
(
4'hf
)
,
// input[3:0]
.
web
(
4'hf
)
,
// input[3:0]
.
data_in
(
{{
(
36
-
DTT_IN_WIDTH
)
{
1'b0
}},
data_dtt_in
}
)
// input[35:0]
.
data_in
(
{{
(
36
-
DTT_IN_WIDTH
)
{
1'b0
}},
data_dtt_in
}
)
// input[35:0]
)
;
)
;
wire
[
8
:
0
]
dbg
t_diff_wara
=
dtt_in_wa
-
dtt_r_ra
;
wire
[
8
:
0
]
dbg
_diff_wara_dtt_in
=
dtt_in_wa
-
dtt_r_ra
;
// SuppressThisWarning VEditor : debug only signal
/*
wire
signed
[
OUT_WIDTH
-
1
:
0
]
dtt_out_wd
;
wire
signed
[
OUT_WIDTH
-
1
:
0
]
dtt_out_wd
;
wire
[
3
:
0
]
dtt_out_wa16
;
wire
[
3
:
0
]
dtt_out_wa16
;
wire
dtt_out_we
;
wire
dtt_out_we
;
...
@@ -291,10 +312,218 @@ module mclt16x16_bayer#(
...
@@ -291,10 +312,218 @@ module mclt16x16_bayer#(
wire
dtt_inc16
;
wire
dtt_inc16
;
reg
[
4
:
0
]
dtt_out_ram_cntr
;
reg
[
4
:
0
]
dtt_out_ram_cntr
;
reg
[
4
:
0
]
dtt_out_ram_wah
;
reg
[
4
:
0
]
dtt_out_ram_wah
;
reg
[
1
:
0
]
dtt_out_ram_wpage
;
// one of 4 pages (128 samples long) being written to
wire
dtt_start_fill
;
// some data available in DTT output buffer, OK to start consecutive readout
wire
dtt_start_fill
;
// some data available in DTT output buffer, OK to start consecutive readout
reg
dtt_start_first_fill
;
reg
dtt_start_first_fill
;
reg
dtt_start_out
;
// start read out to sin/cos rotator
reg
dtt_start_out
;
// start read out to sin/cos rotator
*/
// frequency domain, high address bit - page, 2 next - mode, 6 LSBs - transposed FD data (vertical first)
// will change: 2 address bits - page, 1 - mode, 6 LSBs - transposed FD data (vertical first)
// here delay should start after full 2 modes (128 samples) written, as readout to rotators starts from both ends
wire
[
8
:
0
]
dtt_out_ram_wa
=
{
dtt_out_ram_wah
,
dtt_out_wa16
};
reg
[
7
:
0
]
dtt_dly_cntr
;
// reg [8:0] dtt_rd_cntr; // counter for dtt readout to rotator
reg
[
8
:
0
]
dtt_rd_cntr_pre
;
// 1 ahead of the former counter for dtt readout to rotator
// TODO: fix rd addresses
// wire [8:0] dtt_rd_ra = {dtt_rd_cntr[8],dtt_rd_cntr[0],dtt_rd_cntr[1],dtt_rd_cntr[7:2]}; // page, mode, frequency
reg
[
8
:
0
]
dtt_rd_ra0
;
reg
[
8
:
0
]
dtt_rd_ra1
;
reg
[
3
:
0
]
dtt_rd_regen_dv
;
// dtt output buffer mem read, register enable, data valid
wire
[
35
:
0
]
dtt_rd_data0_w
;
// high bits are not used
wire
[
35
:
0
]
dtt_rd_data1_w
;
// high bits are not used
// data to be input to phase rotator
wire
signed
[
OUT_WIDTH
-
1
:
0
]
dtt_rd_data0
=
dtt_rd_data0_w
[
OUT_WIDTH
-
1
:
0
]
;
// valid with dtt_rd_regen_dv[3]
wire
signed
[
OUT_WIDTH
-
1
:
0
]
dtt_rd_data1
=
dtt_rd_data1_w
[
OUT_WIDTH
-
1
:
0
]
;
// valid with dtt_rd_regen_dv[3]
// wire dtt_first_quad_out = ~dtt_out_ram_cntr[3] & ~dtt_out_ram_cntr[2];
wire
dtt_first_quad_out
=
~
dtt_out_ram_cntr
[
2
]
;
always
@
(
posedge
clk
)
begin
if
(
rst
)
dtt_out_ram_cntr
<=
0
;
else
if
(
dtt_inc16
)
dtt_out_ram_cntr
<=
dtt_out_ram_cntr
+
1
;
dtt_out_ram_wah
<=
dtt_out_ram_cntr
-
dtt_sub16
;
dtt_start_first_fill
<=
dtt_start_fill
&
dtt_first_quad_out
;
if
(
dtt_start_first_fill
)
dtt_out_ram_wpage
<=
dtt_out_ram_wah
[
4
:
3
]
;
if
(
rst
)
dtt_dly_cntr
<=
0
;
else
if
(
dtt_start_first_fill
)
dtt_dly_cntr
<=
DTT_OUT_DELAY
;
else
if
(
|
dtt_dly_cntr
)
dtt_dly_cntr
<=
dtt_dly_cntr
-
1
;
dtt_start_out
<=
dtt_dly_cntr
==
1
;
// if (rst) dtt_rd_regen_dv[0] <= 0;
// else if (dtt_start_out) dtt_rd_regen_dv[0] <= 1;
// else if (&dtt_rd_cntr[7:0]) dtt_rd_regen_dv[0] <= 0;
if
(
rst
)
dtt_rd_regen_dv
[
0
]
<=
0
;
else
if
(
dtt_start_out
)
dtt_rd_regen_dv
[
0
]
<=
1
;
else
if
(
&
dtt_rd_cntr_pre
[
6
:
0
])
dtt_rd_regen_dv
[
0
]
<=
0
;
if
(
rst
)
dtt_rd_regen_dv
[
3
:
1
]
<=
0
;
else
dtt_rd_regen_dv
[
3
:
1
]
<=
dtt_rd_regen_dv
[
2
:
0
]
;
// if (dtt_start_out) dtt_rd_cntr_pre <= {dtt_out_ram_wah[4], 8'b0}; //copy page number
if
(
dtt_start_out
)
dtt_rd_cntr_pre
<=
{
dtt_out_ram_wpage
,
7'b0
};
//copy page number
else
if
(
dtt_rd_regen_dv
[
0
])
dtt_rd_cntr_pre
<=
dtt_rd_cntr_pre
+
1
;
//// wire [8:0] dtt_rd_ra = {dtt_rd_cntr[8],dtt_rd_cntr[0],dtt_rd_cntr[1],dtt_rd_cntr[7:2]}; // page, mode, frequency
dtt_rd_ra0
<=
{
dtt_rd_cntr_pre
[
8
:
7
]
,
dtt_rd_cntr_pre
[
6
]
^
dtt_rd_cntr_pre
[
5
]
,
dtt_rd_cntr_pre
[
5
]
?
(
~
dtt_rd_cntr_pre
[
4
:
0
])
:
dtt_rd_cntr_pre
[
4
:
0
]
,
dtt_rd_cntr_pre
[
5
]
};
dtt_rd_ra1
<=
{
dtt_rd_cntr_pre
[
8
:
7
]
,
dtt_rd_cntr_pre
[
6
]
^
dtt_rd_cntr_pre
[
5
]
,
dtt_rd_cntr_pre
[
5
]
?
(
~
dtt_rd_cntr_pre
[
4
:
0
])
:
dtt_rd_cntr_pre
[
4
:
0
]
,
~
dtt_rd_cntr_pre
[
5
]
};
end
dtt_iv_8x8_ad
#(
.
INPUT_WIDTH
(
DTT_IN_WIDTH
)
,
.
OUT_WIDTH
(
OUT_WIDTH
)
,
.
OUT_RSHIFT1
(
OUT_RSHIFT
)
,
.
OUT_RSHIFT2
(
OUT_RSHIFT2
)
,
.
TRANSPOSE_WIDTH
(
TRANSPOSE_WIDTH
)
,
.
DSP_B_WIDTH
(
DSP_B_WIDTH
)
,
.
DSP_A_WIDTH
(
DSP_A_WIDTH
)
,
.
DSP_P_WIDTH
(
DSP_P_WIDTH
)
)
dtt_iv_8x8_ad_i
(
.
clk
(
clk
)
,
// input
.
rst
(
rst
)
,
// input
.
start
(
dtt_start
)
,
// input
.
mode
(
{
dtt_mode
,
1'b0
}
)
,
// input[1:0] for checker-board: only 2 of 4 modes (CC, SC)
.
xin
(
dtt_r_data
)
,
// input[24:0] signed
.
pre_last_in
()
,
// output reg
.
mode_out
()
,
// dtt_mode_out), // output[1:0] reg
.
pre_busy
()
,
// output reg
.
out_wd
(
dtt_out_wd
)
,
// output[24:0] reg
.
out_wa
(
dtt_out_wa16
)
,
// output[3:0] reg
.
out_we
(
dtt_out_we
)
,
// output reg
.
sub16
(
dtt_sub16
)
,
// output reg
.
inc16
(
dtt_inc16
)
,
// output reg
.
start_out
(
dtt_start_fill
)
// output[24:0] signed
)
;
// still incorrectly shows difference when filled nto sequentially
reg
[
8
:
0
]
dbg_last_dtt_out_ram_wa
;
// SuppressThisWarning VEditor : debug only signal
wire
[
8
:
0
]
dbg_diff_wara_dtt_out0
=
dbg_last_dtt_out_ram_wa
-
dtt_rd_ra0
;
// SuppressThisWarning VEditor : debug only signal
wire
[
8
:
0
]
dbg_diff_wara_dtt_out1
=
dbg_last_dtt_out_ram_wa
-
dtt_rd_ra1
;
// SuppressThisWarning VEditor : debug only signal
always
@
(
posedge
clk
)
begin
if
(
dtt_out_we
)
dbg_last_dtt_out_ram_wa
<=
dtt_out_ram_wa
;
end
// Two of 2 page buffers after dtt (feeding two phase rotators), address MSB is not needed
ram18p_var_w_var_r
#(
.
REGISTERS
(
1
)
,
.
LOG2WIDTH_WR
(
5
)
,
.
LOG2WIDTH_RD
(
5
)
)
ram18p_var_w_var_r_dtt_out0_i
(
.
rclk
(
clk
)
,
// input
.
raddr
(
dtt_rd_ra0
)
,
// input[8:0]
.
ren
(
dtt_rd_regen_dv
[
1
])
,
// input
.
regen
(
dtt_rd_regen_dv
[
2
])
,
// input
.
data_out
(
dtt_rd_data0_w
)
,
// output[35:0]
.
wclk
(
clk
)
,
// input
.
waddr
(
dtt_out_ram_wa
)
,
// input[8:0]
.
we
(
dtt_out_we
)
,
// input
.
web
(
4'hf
)
,
// input[3:0]
.
data_in
(
{{
(
36
-
DTT_IN_WIDTH
)
{
1'b0
}},
dtt_out_wd
}
)
// input[35:0]
)
;
ram18p_var_w_var_r
#(
.
REGISTERS
(
1
)
,
.
LOG2WIDTH_WR
(
5
)
,
.
LOG2WIDTH_RD
(
5
)
)
ram18p_var_w_var_r_dtt_out1_i
(
.
rclk
(
clk
)
,
// input
.
raddr
(
dtt_rd_ra1
)
,
// input[8:0]
.
ren
(
dtt_rd_regen_dv
[
1
])
,
// input
.
regen
(
dtt_rd_regen_dv
[
2
])
,
// input
.
data_out
(
dtt_rd_data1_w
)
,
// output[35:0]
.
wclk
(
clk
)
,
// input
.
waddr
(
dtt_out_ram_wa
)
,
// input[8:0]
.
we
(
dtt_out_we
)
,
// input
.
web
(
4'hf
)
,
// input[3:0]
.
data_in
(
{{
(
36
-
DTT_IN_WIDTH
)
{
1'b0
}},
dtt_out_wd
}
)
// input[35:0]
)
;
// Two rotators in parallel
// TODO: add negating for antisymmetrical (inverted checkerboard)
// Rotate phase (equvalent to pixel domain shift)
phase_rotator
#(
.
FD_WIDTH
(
OUT_WIDTH
)
,
.
SHIFT_WIDTH
(
SHIFT_WIDTH
)
,
// should be exactly 7
.
DSP_B_WIDTH
(
DSP_B_WIDTH
)
,
.
DSP_A_WIDTH
(
DSP_A_WIDTH
)
,
.
DSP_P_WIDTH
(
DSP_P_WIDTH
)
)
phase_rotator0_i
(
.
clk
(
clk
)
,
// input
.
rst
(
rst
)
,
// input
.
start
(
dtt_start_out
)
,
// input
// are these shift OK? Will need to be valis only @ dtt_start_out
.
shift_h
(
x_shft_r4
)
,
// input[6:0] signed
.
shift_v
(
y_shft_r4
)
,
// input[6:0] signed
.
inv_checker
(
inv_checker_r4
)
,
// input only used for Bayer mosaic data
.
fd_din
(
dtt_rd_data0
)
,
// input[24:0] signed. Expected latency = 3 from start
.
fd_out
(
dout0
)
,
// output[24:0] reg signed
.
pre_first_out
(
pre_first_out
)
,
// output reg
.
fd_dv
(
dv
)
// output reg
)
;
phase_rotator
#(
.
FD_WIDTH
(
OUT_WIDTH
)
,
.
SHIFT_WIDTH
(
SHIFT_WIDTH
)
,
// should be exactly 7
.
DSP_B_WIDTH
(
DSP_B_WIDTH
)
,
.
DSP_A_WIDTH
(
DSP_A_WIDTH
)
,
.
DSP_P_WIDTH
(
DSP_P_WIDTH
)
)
phase_rotator1_i
(
.
clk
(
clk
)
,
// input
.
rst
(
rst
)
,
// input
.
start
(
dtt_start_out
)
,
// input
// are these shift OK? Will need to be valis only @ dtt_start_out
.
shift_h
(
x_shft_r4
)
,
// input[6:0] signed
.
shift_v
(
y_shft_r4
)
,
// input[6:0] signed
.
inv_checker
(
inv_checker_r4
)
,
// input only used for Bayer mosaic data
.
fd_din
(
dtt_rd_data1
)
,
// input[24:0] signed. Expected latency = 3 from start
.
fd_out
(
dout1
)
,
// output[24:0] reg signed
.
pre_first_out
(
pre_first_out
)
,
// output reg
.
fd_dv
(
dv
)
// output reg
)
;
reg
[
7
:
0
]
out_addr_r
;
reg
[
3
:
0
]
dead_cntr
;
reg
pre_busy_r
;
assign
out_addr
=
{
out_addr_r
[
0
]
,
out_addr_r
[
1
]
,
out_addr_r
[
4
:
2
]
,
out_addr_r
[
7
:
5
]
};
always
@
(
posedge
clk
)
begin
if
(
!
dv
)
out_addr_r
<=
0
;
else
out_addr_r
<=
out_addr_r
+
1
;
pre_last_out_r
<=
out_addr_r
==
8'hfe
;
if
(
rst
)
pre_busy_r
<=
0
;
else
if
(
pre_last_in_w
)
pre_busy_r
<=
1
;
else
if
(
dead_cntr
==
0
)
pre_busy_r
<=
0
;
if
(
~
pre_busy_r
)
dead_cntr
<=
DEAD_CYCLES
;
else
dead_cntr
<=
dead_cntr
-
1
;
end
endmodule
endmodule
dsp/mclt_bayer_fold.v
View file @
632ab621
...
@@ -71,8 +71,9 @@ module mclt_bayer_fold#(
...
@@ -71,8 +71,9 @@ module mclt_bayer_fold#(
output
pix_page
,
//!< copy pixel page (should be externally combined with first color)
output
pix_page
,
//!< copy pixel page (should be externally combined with first color)
output
signed
[
WND_WIDTH
-
1
:
0
]
window
,
//!< msb==0, always positive
output
signed
[
WND_WIDTH
-
1
:
0
]
window
,
//!< msb==0, always positive
output
[
1
:
0
]
signs
,
//!< bit 0: sign to add to dtt-cc input, bit 1: sign to add to dtt-cs input
output
[
1
:
0
]
signs
,
//!< bit 0: sign to add to dtt-cc input, bit 1: sign to add to dtt-cs input
output
[
14
:
0
]
phases
,
//!< other signals
output
[
14
:
0
]
phases
,
//!< other signals
output
reg
var_first
output
reg
var_first
,
//!< first of 2 fold variants (4 for monochrome, 2 left for checker)
output
reg
pre_last_in
//!< pre last data in
)
;
)
;
reg
[
6
:
0
]
in_cntr
;
// input phase counter
reg
[
6
:
0
]
in_cntr
;
// input phase counter
reg
[
14
:
0
]
run_r
;
// run phase
reg
[
14
:
0
]
run_r
;
// run phase
...
@@ -146,6 +147,10 @@ module mclt_bayer_fold#(
...
@@ -146,6 +147,10 @@ module mclt_bayer_fold#(
var_first
<=
var_first_d
;
var_first
<=
var_first_d
;
end
end
pre_last_in
<=
in_cntr
[
7
:
0
]
==
8'hfd
;
end
end
ram18tp_var_w_var_r
#(
ram18tp_var_w_var_r
#(
...
...
dsp/phase_rotator.v
View file @
632ab621
...
@@ -51,6 +51,7 @@ module phase_rotator#(
...
@@ -51,6 +51,7 @@ module phase_rotator#(
input
start
,
//!< single-cycle start pulse that goes 1 cycle before first data
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_h
,
//!< subpixel shift horizontal
input
signed
[
SHIFT_WIDTH
-
1
:
0
]
shift_v
,
//!< subpixel shift vertical
input
signed
[
SHIFT_WIDTH
-
1
:
0
]
shift_v
,
//!< subpixel shift vertical
input
inv_checker
,
//!< negate 2-nd and fourth samples (for handling inverted checkerboard)
// input data CC,CS,SC,SS in column scan order (matching DTT)
// input data CC,CS,SC,SS in column scan order (matching DTT)
input
signed
[
FD_WIDTH
-
1
:
0
]
fd_din
,
//!< frequency domain data in, LATENCY=3 from start
input
signed
[
FD_WIDTH
-
1
:
0
]
fd_din
,
//!< frequency domain data in, LATENCY=3 from start
output
reg
signed
[
FD_WIDTH
-
1
:
0
]
fd_out
,
//!< frequency domain data in
output
reg
signed
[
FD_WIDTH
-
1
:
0
]
fd_out
,
//!< frequency domain data in
...
@@ -90,6 +91,7 @@ module phase_rotator#(
...
@@ -90,6 +91,7 @@ module phase_rotator#(
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_v0
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_v0
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_vr
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_vr
;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_hv
;
// combined horizonta and vertical shifts to match cntr_mux;
reg
[
SHIFT_WIDTH
-
1
:
0
]
shift_hv
;
// combined horizonta and vertical shifts to match cntr_mux;
reg
inv_checker_r
;
reg
[
4
:
0
]
sign_cs
;
// sign for cos / sin, feed to DSP
reg
[
4
:
0
]
sign_cs
;
// sign for cos / sin, feed to DSP
wire
sign_cs_d
;
// sign_cs delayed by 3 clocks
wire
sign_cs_d
;
// sign_cs delayed by 3 clocks
reg
[
1
:
0
]
sign_cs_r
;
// sign_cs delayed by 5 clocks
reg
[
1
:
0
]
sign_cs_r
;
// sign_cs delayed by 5 clocks
...
@@ -108,6 +110,7 @@ module phase_rotator#(
...
@@ -108,6 +110,7 @@ module phase_rotator#(
if
(
start
)
shift_hr
<=
shift_h
;
if
(
start
)
shift_hr
<=
shift_h
;
if
(
start
)
shift_v0
<=
shift_v
;
if
(
start
)
shift_v0
<=
shift_v
;
if
(
start
)
inv_checker_r
<=
inv_checker
;
if
(
start_d
[
3
])
shift_vr
<=
shift_v0
;
if
(
start_d
[
3
])
shift_vr
<=
shift_v0
;
if
(
rst
)
run_h
<=
0
;
if
(
rst
)
run_h
<=
0
;
...
...
mclt_test_02.sav
View file @
632ab621
[*]
[*]
[*] GTKWave Analyzer v3.3.78 (w)1999-2016 BSI
[*] GTKWave Analyzer v3.3.78 (w)1999-2016 BSI
[*] Fri Dec 22
06:19:20
2017
[*] Fri Dec 22
22:36:36
2017
[*]
[*]
[dumpfile] "/home/eyesis/nc393/elphel393/fpga-elphel/x393_branch_dct/simulation/mclt_test_02-2017122
1231546581
.fst"
[dumpfile] "/home/eyesis/nc393/elphel393/fpga-elphel/x393_branch_dct/simulation/mclt_test_02-2017122
2152552213
.fst"
[dumpfile_mtime] "Fri Dec 22
06:15:49
2017"
[dumpfile_mtime] "Fri Dec 22
22:25:57
2017"
[dumpfile_size] 1
127723
[dumpfile_size] 1
477081
[savefile] "/home/eyesis/nc393/elphel393/fpga-elphel/x393_branch_dct/mclt_test_02.sav"
[savefile] "/home/eyesis/nc393/elphel393/fpga-elphel/x393_branch_dct/mclt_test_02.sav"
[timestart] 0
[timestart] 0
[size] 1920 1171
[size] 1920 1171
[pos] -1920 0
[pos] -1920 0
*-21.
434872 1705000 355000 2885000 325000 -1
-1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
*-21.
350550 3425000 355000 2885000 325000 7455000
-1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
[treeopen] mclt_test_02.
[treeopen] mclt_test_02.
[treeopen] mclt_test_02.mclt16x16_i.dtt_iv_8x8_ad_i.dct_iv8_1d_pass1_0_i.
[treeopen] mclt_test_02.mclt16x16_i.dtt_iv_8x8_ad_i.dct_iv8_1d_pass1_0_i.
[treeopen] mclt_test_02.mclt16x16_i.dtt_iv_8x8_ad_i.dct_iv8_1d_pass2_0_i.
[treeopen] mclt_test_02.mclt16x16_i.dtt_iv_8x8_ad_i.dct_iv8_1d_pass2_0_i.
...
@@ -23,7 +23,7 @@
...
@@ -23,7 +23,7 @@
[treeopen] mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.
[treeopen] mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.
[treeopen] mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.
[treeopen] mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.
[sst_width] 306
[sst_width] 306
[signals_width] 3
9
7
[signals_width] 3
2
7
[sst_expanded] 1
[sst_expanded] 1
[sst_vpaned_height] 343
[sst_vpaned_height] 343
@c00200
@c00200
...
@@ -1272,10 +1272,7 @@ mclt_test_02.mclt_bayer_fold_i.window_w[17:0]
...
@@ -1272,10 +1272,7 @@ mclt_test_02.mclt_bayer_fold_i.window_w[17:0]
mclt_test_02.mclt_bayer_fold_i.window_r[17:0]
mclt_test_02.mclt_bayer_fold_i.window_r[17:0]
mclt_test_02.mclt_bayer_fold_i.pix_wnd_r[33:0]
mclt_test_02.mclt_bayer_fold_i.pix_wnd_r[33:0]
mclt_test_02.mclt_bayer_fold_i.pix_wnd_r2[24:0]
mclt_test_02.mclt_bayer_fold_i.pix_wnd_r2[24:0]
@c00200
mclt_test_02.mclt_bayer_fold_i.phases[14:0]
-mclt_test_02.mclt_bayer_fold_i.phases
@1401200
-group_end
@28
@28
mclt_test_02.mclt_bayer_fold_i.var_first
mclt_test_02.mclt_bayer_fold_i.var_first
mclt_test_02.mclt_bayer_fold_i.var_last
mclt_test_02.mclt_bayer_fold_i.var_last
...
@@ -1292,12 +1289,11 @@ mclt_test_02.mclt_bayer_fold_i.data_dtt_in[24:0]
...
@@ -1292,12 +1289,11 @@ mclt_test_02.mclt_bayer_fold_i.data_dtt_in[24:0]
mclt_test_02.mclt_bayer_fold_i.dtt_in_cntr[6:0]
mclt_test_02.mclt_bayer_fold_i.dtt_in_cntr[6:0]
@28
@28
mclt_test_02.mclt_bayer_fold_i.dtt_in_page
mclt_test_02.mclt_bayer_fold_i.dtt_in_page
@29
mclt_test_02.mclt_bayer_fold_i.start_dtt
mclt_test_02.mclt_bayer_fold_i.start_dtt
@
8
00200
@
c
00200
-membuf
-membuf
@8022
@8022
mclt_test_02.mclt_bayer_fold_i.dbg
t_diff_wara
[8:0]
mclt_test_02.mclt_bayer_fold_i.dbg
_diff_wara_dtt_in
[8:0]
@20000
@20000
-
-
-
-
...
@@ -1313,9 +1309,166 @@ mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_in_i.waddr[8:0]
...
@@ -1313,9 +1309,166 @@ mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_in_i.waddr[8:0]
-
-
@200
@200
-
-
@1000200
@28
mclt_test_02.mclt_bayer_fold_i.dtt_out_we
@8022
mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
@20000
-
-
@8022
mclt_test_02.mclt_bayer_fold_i.dbg_last_dtt_out_ram_wa[8:0]
@20000
-
-
-
@8022
mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
@20000
-
-
@8022
mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
mclt_test_02.mclt_bayer_fold_i.dbg_diff_wara_dtt_out0[8:0]
@20000
-
-
@8022
mclt_test_02.mclt_bayer_fold_i.dbg_diff_wara_dtt_out1[8:0]
@20000
-
-
@1401200
-membuf
-membuf
@22
mclt_test_02.mclt_bayer_fold_i.dtt_r_ra[8:0]
mclt_test_02.mclt_bayer_fold_i.dtt_r_data[24:0]
@8420
mclt_test_02.mclt_bayer_fold_i.dtt_r_data[24:0]
@28
mclt_test_02.mclt_bayer_fold_i.dtt_start
mclt_test_02.mclt_bayer_fold_i.dtt_start_fill
@22
mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_cntr[4:0]
@28
mclt_test_02.mclt_bayer_fold_i.dtt_start_first_fill
@22
mclt_test_02.mclt_bayer_fold_i.dtt_out_wd[24:0]
@28
mclt_test_02.mclt_bayer_fold_i.dtt_out_we
@c00022
mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
@28
(0)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(1)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(2)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(3)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(4)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(5)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(6)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(7)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
(8)mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
@1401200
-group_end
@22
mclt_test_02.mclt_bayer_fold_i.dtt_dly_cntr[7:0]
mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wa[8:0]
mclt_test_02.mclt_bayer_fold_i.dtt_out_ram_wah[4:0]
mclt_test_02.mclt_bayer_fold_i.dtt_out_wa16[3:0]
@28
mclt_test_02.mclt_bayer_fold_i.dtt_start_out
@c00022
mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
@28
(0)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(1)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(2)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(3)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(4)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(5)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(6)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(7)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
(8)mclt_test_02.mclt_bayer_fold_i.dtt_rd_cntr_pre[8:0]
@1401200
-group_end
@28
mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.we
@c00022
mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
@28
(0)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(1)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(2)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(3)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(4)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(5)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(6)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(7)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
(8)mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.waddr[8:0]
@1401200
-group_end
@28
mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.ren
mclt_test_02.mclt_bayer_fold_i.ram18p_var_w_var_r_dtt_out0_i.regen
@c00022
mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
@28
(0)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(1)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(2)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(3)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(4)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(5)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(6)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(7)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
(8)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra1[8:0]
@1401200
-group_end
@22
mclt_test_02.mclt_bayer_fold_i.x_shft[6:0]
mclt_test_02.mclt_bayer_fold_i.x_shft_r[6:0]
mclt_test_02.mclt_bayer_fold_i.x_shft_r2[6:0]
mclt_test_02.mclt_bayer_fold_i.x_shft_r3[6:0]
mclt_test_02.mclt_bayer_fold_i.x_shft_r4[6:0]
mclt_test_02.mclt_bayer_fold_i.y_shft[6:0]
mclt_test_02.mclt_bayer_fold_i.y_shft_r2[6:0]
mclt_test_02.mclt_bayer_fold_i.y_shft_r3[6:0]
mclt_test_02.mclt_bayer_fold_i.y_shft_r4[6:0]
@28
mclt_test_02.mclt_bayer_fold_i.inv_checker
mclt_test_02.mclt_bayer_fold_i.inv_checker_r
mclt_test_02.mclt_bayer_fold_i.inv_checker_r2
mclt_test_02.mclt_bayer_fold_i.inv_checker_r3
mclt_test_02.mclt_bayer_fold_i.inv_checker_r4
@800023
mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
@29
(0)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(1)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(2)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(3)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(4)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(5)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(6)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(7)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
(8)mclt_test_02.mclt_bayer_fold_i.dtt_rd_ra0[8:0]
@1001201
-group_end
@800200
@800200
-rotator0
@28
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.start
@22
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.shift_h[6:0]
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.shift_v[6:0]
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.shift_hr[6:0]
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.shift_v0[6:0]
mclt_test_02.mclt_bayer_fold_i.phase_rotator0_i.shift_vr[6:0]
@200
-
@1000200
-rotator0
@c00200
-mclt_bayer_fold
-mclt_bayer_fold
@28
@28
mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.rst
mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.rst
...
@@ -1378,8 +1531,8 @@ mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.i_wnd_rom.regrst_a
...
@@ -1378,8 +1531,8 @@ mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.i_wnd_rom.regrst_a
mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.i_wnd_rom.regrst_b
mclt_test_02.mclt_bayer_fold_i.mclt_bayer_fold_i.mclt_wnd_i.i_wnd_rom.regrst_b
@1401200
@1401200
-mclt_wnd_mul
-mclt_wnd_mul
@1000200
-mclt_bayer_fold
-mclt_bayer_fold
@1000200
-mclt_bayer
-mclt_bayer
@800200
@800200
-mono
-mono
...
...
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