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Elphel
x393
Commits
4d63229c
Commit
4d63229c
authored
Oct 12, 2015
by
Andrey Filippov
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working on HiSPi simulation module
parent
9ff78344
Changes
3
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452 additions
and
12 deletions
+452
-12
par12_hispi_psp4l.v
simulation_modules/par12_hispi_psp4l.v
+295
-3
x393_testbench02.sav
x393_testbench02.sav
+128
-9
x393_testbench02.tf
x393_testbench02.tf
+29
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simulation_modules/par12_hispi_psp4l.v
View file @
4d63229c
...
@@ -27,20 +27,312 @@ module par12_hispi_psp4l#(
...
@@ -27,20 +27,312 @@ module par12_hispi_psp4l#(
parameter
LANE1_DLY
=
2.7
,
parameter
LANE1_DLY
=
2.7
,
parameter
LANE2_DLY
=
0.2
,
parameter
LANE2_DLY
=
0.2
,
parameter
LANE3_DLY
=
3.3
,
parameter
LANE3_DLY
=
3.3
,
parameter
BLANK_LINES
=
2
,
parameter
CLK_DLY
=
2.3
,
parameter
MAX_LINE
=
8192
parameter
EMBED_LINES
=
2
,
// number of first lines containing embedded (non-image) data
parameter
MSB_FIRST
=
0
,
parameter
FIFO_LOGDEPTH
=
12
// line FIFO address bits (includes sync+latency overhead)
)(
)(
input
pclk
,
input
pclk
,
input
rst
,
input
rst
,
input
[
11
:
0
]
pxd
,
input
[
11
:
0
]
pxd
,
input
vact
,
input
vact
,
input
hact
,
input
hact
_in
,
// should be multiple of 4 pixels
output
[
3
:
0
]
lane_p
,
output
[
3
:
0
]
lane_p
,
output
[
3
:
0
]
lane_n
,
output
[
3
:
0
]
lane_n
,
output
clk_p
,
output
clk_p
,
output
clk_n
output
clk_n
)
;
)
;
localparam
FIFO_DEPTH
=
1
<<
FIFO_LOGDEPTH
;
localparam
[
3
:
0
]
SYNC_SOF
=
3
;
localparam
[
3
:
0
]
SYNC_SOL
=
1
;
localparam
[
3
:
0
]
SYNC_EOF
=
7
;
localparam
[
3
:
0
]
SYNC_EOL
=
6
;
// localparam SYNC_EMBED = 4;
integer
pre_lines
;
// Number of lines left with "embedded" (not image) data
reg
[
1
:
0
]
lane_pcntr
;
// count input pixels to extend hact to 4*n if needed
wire
hact
=
hact_in
||
(
|
lane_pcntr
)
;
reg
image_lines
;
reg
vact_d
;
reg
[
47
:
0
]
pxd_d
;
reg
[
48
:
0
]
fifo_di
;
// msb: 0 - data,1 sync
reg
fifo_we
;
reg
hact_d
;
reg
next_sof
;
reg
next_line_pclk
;
// triggers serial output of a line (generated at SOL and EOF, wait full line)
reg
next_frame_pclk
;
// start of a new frame on input
wire
pre_fifo_we_eof_w
=
vact_d
&&
!
vact
;
wire
pre_fifo_we_sof_sol_w
=
vact_d
&&
hact
&&
!
hact_d
;
wire
pre_fifo_we_data_w
=
vact_d
&&
hact_d
&&
(
lane_pcntr
==
0
)
;
wire
pre_fifo_we_w
=
pre_fifo_we_eof_w
||
pre_fifo_we_sof_sol_w
||
pre_fifo_we_data_w
;
always
@
(
posedge
pclk
)
begin
vact_d
<=
vact
;
hact_d
<=
hact
;
pxd_d
<=
{
pxd_d
[
35
:
0
]
,
pxd
};
if
(
!
vact
)
lane_pcntr
<=
0
;
else
if
(
hact
)
lane_pcntr
<=
lane_pcntr
+
1
;
if
(
!
vact
)
pre_lines
<=
EMBED_LINES
;
else
if
(
!
image_lines
&&
hact_d
&&
!
hact
)
pre_lines
<=
pre_lines
-
1
;
if
(
!
vact
)
image_lines
<=
(
EMBED_LINES
!=
0
)
;
else
if
(
!
image_lines
&&
hact_d
&&
!
hact
&&
(
pre_lines
==
1
))
image_lines
<=
1
;
if
(
!
vact
)
next_sof
<=
1
;
else
if
(
hact_d
)
next_sof
<=
0
;
if
(
!
vact_d
)
next_line_pclk
<=
1
;
else
next_line_pclk
<=
!
vact
||
(
hact
&&
!
hact_d
&&
!
next_sof
)
;
next_frame_pclk
<=
vact_d
&&
hact
&&
!
hact_d
&&
next_sof
;
fifo_we
<=
pre_fifo_we_w
;
if
(
!
pre_fifo_we_w
)
fifo_di
<=
'bx
;
else
if
(
pre_fifo_we_data_w
)
fifo_di
<=
{
1'b0
,
pxd_d
};
else
if
(
pre_fifo_we_sof_sol_w
)
fifo_di
<=
{
1'b1
,{
4
{{
7'b0
,
~
image_lines
,
next_sof
?
SYNC_SOF
:
SYNC_SOL
}}}};
else
if
(
pre_fifo_we_eof_w
)
fifo_di
<=
{
1'b1
,{
4
{{
7'b0
,
1'b0
,
SYNC_EOF
}}}};
end
reg
[
48
:
0
]
fifo_ram
[
0
:
FIFO_DEPTH
-
1
]
;
reg
[
FIFO_LOGDEPTH
-
1
:
0
]
fifo_wa
;
always
@
(
posedge
pclk
)
begin
if
(
rst
)
fifo_wa
<=
0
;
else
if
(
fifo_we
)
fifo_wa
<=
fifo_wa
+
1
;
if
(
fifo_we
)
fifo_ram
[
fifo_wa
]
<=
fifo_di
;
end
// generate output clock (normally multiplier first, but in simulation there will be less calculations if division is first)
wire
oclk
;
wire
int_clk
;
wire
next_line_oclk
;
wire
next_frame_oclk
;
reg
orst_r
=
1
;
wire
orst
=
rst
||
orst_r
;
simul_clk_mult
#(
.
MULTIPLIER
(
CLOCK_MPY
)
)
simul_clk_mult_i
(
.
clk_in
(
pclk
)
,
// input
.
en
(
1'b1
)
,
// input
.
clk_out
(
int_clk
)
// output reg
)
;
sim_clk_div
#(
.
DIVISOR
(
CLOCK_DIV
)
)
sim_clk_div_i
(
.
clk_in
(
int_clk
)
,
// input
.
en
(
1'b1
)
,
// input
.
clk_out
(
oclk
)
// output
)
;
pulse_cross_clock
#(
.
EXTRA_DLY
(
0
)
)
pulse_cross_clock_sof_sol_i
(
.
rst
(
rst
)
,
// input
.
src_clk
(
pclk
)
,
// input
.
dst_clk
(
oclk
)
,
// input
.
in_pulse
(
next_line_pclk
)
,
// input
.
out_pulse
(
next_line_oclk
)
,
// output
.
busy
()
// output
)
;
pulse_cross_clock
#(
.
EXTRA_DLY
(
0
)
)
pulse_cross_clock_sof_i
(
.
rst
(
rst
)
,
// input
.
src_clk
(
pclk
)
,
// input
.
dst_clk
(
oclk
)
,
// input
.
in_pulse
(
next_frame_pclk
)
,
// input
.
out_pulse
(
next_frame_oclk
)
,
// output
.
busy
()
// output
)
;
always
@
(
oclk
)
begin
orst_r
<=
rst
;
end
wire
[
3
:
0
]
rdy
;
// all lanes operate at the same time, only one rdy bit is used
wire
[
3
:
0
]
sdata
;
wire
[
3
:
0
]
sdata_dly
;
reg
[
FIFO_LOGDEPTH
-
1
:
0
]
fifo_ra
;
wire
[
48
:
0
]
fifo_out
=
fifo_ram
[
fifo_ra
]
;
wire
fifo_dav
;
// wire next_line;
wire
sof_sol_sent
;
reg
[
1
:
0
]
lines_available
;
// number of lines ready in FIFO
wire
line_available
=
|
lines_available
;
generate
genvar
i
;
for
(
i
=
0
;
i
<
4
;
i
=
i
+
1
)
begin
:
cmprs_channel_block
par12_hispi_psp4l_lane
#(
.
SYNC_SOF
(
SYNC_SOF
)
,
.
SYNC_SOL
(
SYNC_SOL
)
,
.
SYNC_EOF
(
SYNC_EOF
)
,
.
SYNC_EOL
(
SYNC_EOL
)
,
.
IDL
(
12'h800
)
,
.
MSB_FIRST
(
MSB_FIRST
)
)
par12_hispi_psp4l_lane_i
(
.
clk
(
oclk
)
,
// input
.
rst
(
orst
)
,
// input
.
din
(
{
fifo_out
[
48
]
,
fifo_out
[
i
*
12
+:
12
]
}
)
,
// input[12:0]
.
dav
(
fifo_dav
)
,
// input
.
next_line
(
line_available
)
,
// input
.
sof_sol_sent
(
sof_sol_sent
)
,
// output reg
.
rdy
(
rdy
[
i
])
,
// output
.
sout
(
sdata
[
i
])
// output reg
)
;
// TODO: Add delays and diff out here?
end
endgenerate
reg
[
1
:
0
]
frames_open
;
// number of frames that are already started on input, but not yet finished on output //next_frame_oclk
wire
eof_sent
=
rdy
[
0
]
&&
fifo_dav
&&
fifo_out
[
48
]
&&
(
fifo_out
[
2
:
0
]
==
SYNC_EOF
[
2
:
0
])
;
assign
fifo_dav
=
(
|
frames_open
)
&&
!
(
fifo_out
[
48
]
&&
(
fifo_out
[
2
:
0
]
==
SYNC_SOF
[
2
:
0
])
&&
!
line_available
)
;
always
@
(
posedge
oclk
)
begin
if
(
orst
)
lines_available
<=
0
;
else
if
(
next_line_oclk
&&
!
sof_sol_sent
)
lines_available
<=
lines_available
+
1
;
else
if
(
!
next_line_oclk
&&
sof_sol_sent
)
lines_available
<=
lines_available
-
1
;
if
(
orst
)
frames_open
<=
0
;
else
if
(
next_frame_oclk
&&
!
eof_sent
)
frames_open
<=
frames_open
+
1
;
else
if
(
!
next_frame_oclk
&&
eof_sent
)
frames_open
<=
frames_open
-
1
;
if
(
orst
)
fifo_ra
<=
fifo_wa
;
else
if
(
fifo_dav
&&
rdy
[
0
])
fifo_ra
<=
fifo_ra
+
1
;
end
sim_frac_clk_delay
#(
.
FRAC_DELAY
(
LANE0_DLY
)
,
.
SKIP_FIRST
(
5
)
)
sim_frac_clk_delay0_i
(
.
clk
(
oclk
)
,
// input
.
din
(
sdata
[
0
])
,
// input
.
dout
(
sdata_dly
[
0
])
// output
)
;
sim_frac_clk_delay
#(
.
FRAC_DELAY
(
LANE1_DLY
)
,
.
SKIP_FIRST
(
5
)
)
sim_frac_clk_delay1_i
(
.
clk
(
oclk
)
,
// input
.
din
(
sdata
[
1
])
,
// input
.
dout
(
sdata_dly
[
1
])
// output
)
;
sim_frac_clk_delay
#(
.
FRAC_DELAY
(
LANE2_DLY
)
,
.
SKIP_FIRST
(
5
)
)
sim_frac_clk_delay2_i
(
.
clk
(
oclk
)
,
// input
.
din
(
sdata
[
2
])
,
// input
.
dout
(
sdata_dly
[
2
])
// output
)
;
sim_frac_clk_delay
#(
.
FRAC_DELAY
(
LANE3_DLY
)
,
.
SKIP_FIRST
(
5
)
)
sim_frac_clk_delay3_i
(
.
clk
(
oclk
)
,
// input
.
din
(
sdata
[
3
])
,
// input
.
dout
(
sdata_dly
[
3
])
// output
)
;
reg
clk_pn
;
wire
clk_pn_dly
;
always
@
(
posedge
oclk
)
begin
if
(
orst
)
clk_pn
<=
0
;
else
clk_pn
<=
~
clk_pn
;
end
sim_frac_clk_delay
#(
.
FRAC_DELAY
(
CLK_DLY
)
,
.
SKIP_FIRST
(
5
)
)
sim_frac_clk_delay_clk_i
(
.
clk
(
oclk
)
,
// input
.
din
(
clk_pn
)
,
// input
.
dout
(
clk_pn_dly
)
// output
)
;
assign
lane_p
=
sdata_dly
;
assign
lane_n
=
~
sdata_dly
;
assign
clk_p
=
clk_pn_dly
;
assign
clk_n
=
~
clk_pn_dly
;
endmodule
module
par12_hispi_psp4l_lane
#(
parameter
[
3
:
0
]
SYNC_SOF
=
3
,
parameter
[
3
:
0
]
SYNC_SOL
=
1
,
parameter
[
3
:
0
]
SYNC_EOF
=
7
,
parameter
[
3
:
0
]
SYNC_EOL
=
6
,
parameter
[
11
:
0
]
IDL
=
12'h800
,
parameter
MSB_FIRST
=
0
)(
input
clk
,
input
rst
,
input
[
12
:
0
]
din
,
input
dav
,
input
next_line
,
// enable to continue seq_eol_sol
output
reg
sof_sol_sent
,
// SOL sent
output
rdy
,
output
reg
sout
)
;
reg
[
11
:
0
]
sr
;
reg
[
11
:
0
]
sr_in
;
reg
sr_in_av
;
//
reg
[
3
:
0
]
bcntr
;
reg
[
3
:
0
]
seq_sof
;
reg
[
3
:
0
]
seq_eof
;
reg
[
7
:
0
]
seq_eol_sol
;
reg
embed
;
wire
dav_rdy
=
dav
&&
rdy
;
wire
is_sync
=
din
[
11
]
;
wire
[
11
:
0
]
din_filt
=
(
din
[
11
:
1
]
==
11'h0
)
?
12'h001
:
din
[
11
:
0
]
;
wire
pause
=
seq_eol_sol
[
4
]
&&
!
next_line
;
assign
rdy
=
!
sr_in_av
;
always
@
(
posedge
clk
)
begin
if
(
rst
||
(
bcntr
==
11
))
bcntr
<=
0
;
else
bcntr
<=
bcntr
+
1
;
if
(
rst
)
sr
<=
'bx
;
else
if
(
bcntr
==
0
)
sr
<=
sr_in_av
?
sr_in
:
IDL
;
else
sr
<=
MSB_FIRST
?
{
sr
[
10
:
0
]
,
1'b0
}
:
{
1'b0
,
sr
[
11
:
1
]
};
sout
<=
MSB_FIRST
?
sr
[
11
]
:
sr
[
0
]
;
if
(
rst
)
embed
<=
0
;
else
if
(
dav_rdy
&&
is_sync
)
embed
<=
din
[
4
]
;
if
(
rst
)
seq_sof
<=
0
;
else
if
(
dav_rdy
&&
is_sync
&&
(
din
[
3
:
0
]
==
SYNC_SOF
))
seq_sof
<=
8
;
else
if
(
bcntr
==
0
)
seq_sof
<=
seq_sof
>>
1
;
if
(
rst
)
seq_eof
<=
0
;
else
if
(
dav_rdy
&&
is_sync
&&
(
din
[
2
:
0
]
==
SYNC_EOF
[
2
:
0
]
))
seq_eof
<=
8
;
else
if
(
bcntr
==
0
)
seq_eof
<=
seq_eof
>>
1
;
if
(
rst
)
seq_eol_sol
<=
0
;
else
if
(
dav_rdy
&&
is_sync
&&
(
din
[
3
:
0
]
==
SYNC_SOL
))
seq_eol_sol
<=
80
;
else
if
((
bcntr
==
0
)
&&
!
pause
)
seq_eol_sol
<=
seq_eol_sol
>>
1
;
if
(
dav_rdy
)
sr_in
<=
is_sync
?
12'hfff
:
din_filt
;
else
if
((
bcntr
==
0
)
&&
!
pause
)
begin
if
(
seq_sof
[
3
]
||
seq_eof
[
3
]
||
seq_eol_sol
[
7
]
||
seq_eol_sol
[
3
])
sr_in
<=
12'h0
;
else
if
(
seq_eol_sol
[
4
])
sr_in
<=
12'hfff
;
else
if
(
seq_sof
[
1
])
sr_in
<=
{
7'b0
,
embed
,
SYNC_SOF
};
else
if
(
seq_eof
[
1
])
sr_in
<=
{
7'b0
,
1'b0
,
SYNC_EOF
};
else
if
(
seq_eol_sol
[
5
])
sr_in
<=
{
7'b0
,
1'b0
,
SYNC_EOL
};
else
if
(
seq_eol_sol
[
1
])
sr_in
<=
{
7'b0
,
embed
,
SYNC_SOL
};
end
if
(
rst
)
sr_in_av
<=
0
;
else
if
(
dav_rdy
)
sr_in_av
<=
0
;
else
if
(
bcntr
==
0
)
sr_in_av
<=
(
|
seq_sof
[
3
:
1
])
||
(
|
seq_eof
[
3
:
1
])
||
((
|
seq_eol_sol
[
7
:
1
])
&&
!
pause
)
;
sof_sol_sent
<=
(
bcntr
==
0
)
&&
(
seq_sof
[
1
]
||
seq_eol_sol
[
1
])
;
end
endmodule
endmodule
x393_testbench02.sav
View file @
4d63229c
[*]
[*]
[*] GTKWave Analyzer v3.3.66 (w)1999-2015 BSI
[*] GTKWave Analyzer v3.3.66 (w)1999-2015 BSI
[*]
Sun Oct 11 07:47:05
2015
[*]
Mon Oct 12 05:49:01
2015
[*]
[*]
[dumpfile] "/home/andrey/git/x393/simulation/x393_testbench02-20151011
014314914
.fst"
[dumpfile] "/home/andrey/git/x393/simulation/x393_testbench02-20151011
232311425
.fst"
[dumpfile_mtime] "
Sun Oct 11 07:46:34
2015"
[dumpfile_mtime] "
Mon Oct 12 05:45:31
2015"
[dumpfile_size]
4050664
[dumpfile_size]
86140185
[savefile] "/home/andrey/git/x393/x393_testbench02.sav"
[savefile] "/home/andrey/git/x393/x393_testbench02.sav"
[timestart]
161802
00
[timestart]
740121
00
[size] 1823 1180
[size] 1823 1180
[pos] 1922 0
[pos] 1922 0
*-1
5.742174 16339089
102872500 116192500 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
*-1
7.205360 74450000
102872500 116192500 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
[treeopen] x393_testbench02.
[treeopen] x393_testbench02.
[treeopen] x393_testbench02.compressor_control.
[treeopen] x393_testbench02.compressor_control.
[treeopen] x393_testbench02.par12_hispi_psp4l_i.
[treeopen] x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].
[treeopen] x393_testbench02.simul_axi_hp1_wr_i.
[treeopen] x393_testbench02.simul_axi_hp1_wr_i.
[treeopen] x393_testbench02.simul_axi_hp1_wr_i.waddr_i.
[treeopen] x393_testbench02.simul_axi_hp1_wr_i.waddr_i.
[treeopen] x393_testbench02.simul_clk_mult_i.
[treeopen] x393_testbench02.simul_clk_mult_i.
...
@@ -98,7 +100,7 @@
...
@@ -98,7 +100,7 @@
[treeopen] x393_testbench02.x393_i.timing393_i.
[treeopen] x393_testbench02.x393_i.timing393_i.
[treeopen] x393_testbench02.x393_i.timing393_i.camsync393_i.
[treeopen] x393_testbench02.x393_i.timing393_i.camsync393_i.
[treeopen] x393_testbench02.x393_i.timing393_i.rtc393_i.
[treeopen] x393_testbench02.x393_i.timing393_i.rtc393_i.
[sst_width]
23
2
[sst_width]
38
2
[signals_width] 388
[signals_width] 388
[sst_expanded] 1
[sst_expanded] 1
[sst_vpaned_height] 611
[sst_vpaned_height] 611
...
@@ -191,7 +193,7 @@ x393_testbench02.TEST_TITLE[639:0]
...
@@ -191,7 +193,7 @@ x393_testbench02.TEST_TITLE[639:0]
-
-
@1401200
@1401200
-debug_ring
-debug_ring
@
c
00200
@
8
00200
-PX1
-PX1
@28
@28
x393_testbench02.simul_sensor12bits_i.MRST
x393_testbench02.simul_sensor12bits_i.MRST
...
@@ -223,8 +225,125 @@ x393_testbench02.simul_sensor12bits_i.ARO
...
@@ -223,8 +225,125 @@ x393_testbench02.simul_sensor12bits_i.ARO
x393_testbench02.simul_sensor12bits_i.DCLK
x393_testbench02.simul_sensor12bits_i.DCLK
@28
@28
x393_testbench02.simul_sensor12bits_i.OFST
x393_testbench02.simul_sensor12bits_i.OFST
@1
401
200
@1
000
200
-PX1
-PX1
@800200
-par12_hispi_sel
@28
x393_testbench02.par12_hispi_psp4l_i.rst
x393_testbench02.par12_hispi_psp4l_i.orst
x393_testbench02.par12_hispi_psp4l_i.pclk
x393_testbench02.par12_hispi_psp4l_i.oclk
@22
x393_testbench02.par12_hispi_psp4l_i.pxd[11:0]
@28
x393_testbench02.par12_hispi_psp4l_i.vact
x393_testbench02.par12_hispi_psp4l_i.hact
x393_testbench02.par12_hispi_psp4l_i.next_sof
@22
x393_testbench02.par12_hispi_psp4l_i.fifo_wa[11:0]
@28
x393_testbench02.par12_hispi_psp4l_i.fifo_we
@22
x393_testbench02.par12_hispi_psp4l_i.fifo_di[48:0]
x393_testbench02.par12_hispi_psp4l_i.fifo_ra[11:0]
x393_testbench02.par12_hispi_psp4l_i.rdy[3:0]
@200
-
@1000200
-par12_hispi_sel
@200
-
@800201
-hispi_lane0
@23
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.bcntr[3:0]
@29
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.clk
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.dav
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.dav_rdy
@23
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.din[12:0]
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.din_filt[11:0]
@29
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.embed
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.is_sync
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.next_line
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.pause
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.rdy
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.rst
@23
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.seq_eof[3:0]
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.seq_eol_sol[7:0]
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.seq_sof[3:0]
@29
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.sof_sol_sent
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.sout
@23
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.sr[11:0]
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.sr_in[11:0]
@29
x393_testbench02.par12_hispi_psp4l_i.cmprs_channel_block[0].par12_hispi_psp4l_lane_i.sr_in_av
@1000201
-hispi_lane0
@800200
-par12_hspi
@28
x393_testbench02.par12_hispi_psp4l_i.clk_n
x393_testbench02.par12_hispi_psp4l_i.clk_p
x393_testbench02.par12_hispi_psp4l_i.clk_pn
x393_testbench02.par12_hispi_psp4l_i.clk_pn_dly
x393_testbench02.par12_hispi_psp4l_i.eof_sent
x393_testbench02.par12_hispi_psp4l_i.fifo_dav
@22
x393_testbench02.par12_hispi_psp4l_i.fifo_di[48:0]
x393_testbench02.par12_hispi_psp4l_i.fifo_out[48:0]
x393_testbench02.par12_hispi_psp4l_i.fifo_ra[11:0]
x393_testbench02.par12_hispi_psp4l_i.fifo_wa[11:0]
@28
x393_testbench02.par12_hispi_psp4l_i.fifo_we
x393_testbench02.par12_hispi_psp4l_i.frames_open[1:0]
x393_testbench02.par12_hispi_psp4l_i.hact
x393_testbench02.par12_hispi_psp4l_i.hact_d
x393_testbench02.par12_hispi_psp4l_i.hact_in
x393_testbench02.par12_hispi_psp4l_i.image_lines
x393_testbench02.par12_hispi_psp4l_i.int_clk
@22
x393_testbench02.par12_hispi_psp4l_i.lane_n[3:0]
x393_testbench02.par12_hispi_psp4l_i.lane_p[3:0]
@28
x393_testbench02.par12_hispi_psp4l_i.lane_pcntr[1:0]
x393_testbench02.par12_hispi_psp4l_i.line_available
x393_testbench02.par12_hispi_psp4l_i.lines_available[1:0]
x393_testbench02.par12_hispi_psp4l_i.next_frame_oclk
x393_testbench02.par12_hispi_psp4l_i.next_frame_pclk
x393_testbench02.par12_hispi_psp4l_i.next_line_oclk
x393_testbench02.par12_hispi_psp4l_i.next_line_pclk
x393_testbench02.par12_hispi_psp4l_i.next_sof
x393_testbench02.par12_hispi_psp4l_i.oclk
x393_testbench02.par12_hispi_psp4l_i.orst
x393_testbench02.par12_hispi_psp4l_i.orst_r
x393_testbench02.par12_hispi_psp4l_i.pclk
x393_testbench02.par12_hispi_psp4l_i.pre_fifo_we_data_w
x393_testbench02.par12_hispi_psp4l_i.pre_fifo_we_eof_w
x393_testbench02.par12_hispi_psp4l_i.pre_fifo_we_sof_sol_w
x393_testbench02.par12_hispi_psp4l_i.pre_fifo_we_w
@22
x393_testbench02.par12_hispi_psp4l_i.pre_lines
x393_testbench02.par12_hispi_psp4l_i.pxd[11:0]
x393_testbench02.par12_hispi_psp4l_i.pxd_d[47:0]
x393_testbench02.par12_hispi_psp4l_i.rdy[3:0]
@28
x393_testbench02.par12_hispi_psp4l_i.rst
@22
x393_testbench02.par12_hispi_psp4l_i.sdata[3:0]
x393_testbench02.par12_hispi_psp4l_i.sdata_dly[3:0]
@28
x393_testbench02.par12_hispi_psp4l_i.sof_sol_sent
x393_testbench02.par12_hispi_psp4l_i.vact
x393_testbench02.par12_hispi_psp4l_i.vact_d
@1000200
-par12_hspi
@c00200
@c00200
-PX2
-PX2
@28
@28
...
...
x393_testbench02.tf
View file @
4d63229c
...
@@ -2016,6 +2016,35 @@ simul_axi_hp_wr #(
...
@@ -2016,6 +2016,35 @@ simul_axi_hp_wr #(
.din(PX1_DIV_CNTR[3]), // input
.din(PX1_DIV_CNTR[3]), // input
.dout(TEST_DLY[1]) // output
.dout(TEST_DLY[1]) // output
);
);
wire [3:0] PX1_LANE_P;
wire [3:0] PX1_LANE_N;
wire PX1_CLK_P;
wire PX1_CLK_N;
par12_hispi_psp4l #(
.CLOCK_MPY(10),
.CLOCK_DIV(3),
.LANE0_DLY(1.3),
.LANE1_DLY(2.7),
.LANE2_DLY(0.2),
.LANE3_DLY(3.3),
.CLK_DLY(2.3),
.EMBED_LINES(2),
.MSB_FIRST(0),
.FIFO_LOGDEPTH(12)
) par12_hispi_psp4l_i (
.pclk ( PX1_MCLK), // input
.rst (!PX1_MRST), // input
.pxd (PX1_D), // input[11:0]
.vact (PX1_VACT), // input
.hact_in (PX1_HACT), // input
.lane_p (PX1_LANE_P), // output[3:0]
.lane_n (PX1_LANE_N), // output[3:0]
.clk_p (PX1_CLK_P), // output
.clk_n (PX1_CLK_N) // output
);
simul_sensor12bits #(
simul_sensor12bits #(
.lline (VIRTUAL_WIDTH), // SENSOR12BITS_LLINE),
.lline (VIRTUAL_WIDTH), // SENSOR12BITS_LLINE),
...
...
Write
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