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Elphel
x393
Commits
f92c85e2
Commit
f92c85e2
authored
Jul 05, 2015
by
Andrey Filippov
Browse files
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Plain Diff
typo fix in multiple files
parent
060dc308
Changes
21
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21 changed files
with
56 additions
and
49 deletions
+56
-49
cmprs_afi_mux.v
axi/cmprs_afi_mux.v
+6
-6
cmprs_afi_mux_ptr.v
axi/cmprs_afi_mux_ptr.v
+1
-1
cmprs_afi_mux_status.v
axi/cmprs_afi_mux_status.v
+1
-1
cmprs_out_fifo.v
compressor_jp/cmprs_out_fifo.v
+1
-1
jp_channel.v
compressor_jp/jp_channel.v
+4
-4
x393_mcontr_encode_cmd.vh
includes/x393_mcontr_encode_cmd.vh
+2
-2
x393_tasks_afi.vh
includes/x393_tasks_afi.vh
+1
-1
cmd_encod_linear_rd.v
memctrl/cmd_encod_linear_rd.v
+4
-4
cmd_encod_linear_wr.v
memctrl/cmd_encod_linear_wr.v
+1
-1
cmd_encod_tiled_32_rd.v
memctrl/cmd_encod_tiled_32_rd.v
+1
-1
cmd_encod_tiled_32_wr.v
memctrl/cmd_encod_tiled_32_wr.v
+1
-1
cmd_encod_tiled_rd.v
memctrl/cmd_encod_tiled_rd.v
+1
-1
cmd_encod_tiled_wr.v
memctrl/cmd_encod_tiled_wr.v
+1
-1
mcntrl_linear_rw.v
memctrl/mcntrl_linear_rw.v
+1
-1
mcntrl_tiled_rw.v
memctrl/mcntrl_tiled_rw.v
+1
-1
ddrc_sequencer.v
memctrl/phy/ddrc_sequencer.v
+1
-1
mcontr_sequencer.v
memctrl/phy/mcontr_sequencer.v
+1
-1
camsync393.v
timing/camsync393.v
+20
-13
cmd_frame_sequencer.v
util_modules/cmd_frame_sequencer.v
+1
-1
table_ad_transmit.v
util_modules/table_ad_transmit.v
+2
-2
x393_testbench01.tf
x393_testbench01.tf
+4
-4
No files found.
axi/cmprs_afi_mux.v
View file @
f92c85e2
...
@@ -21,7 +21,7 @@
...
@@ -21,7 +21,7 @@
`timescale
1
ns
/
1
ps
`timescale
1
ns
/
1
ps
module
cmprs_afi_mux
#(
module
cmprs_afi_mux
#(
parameter
CMPRS_AFIMUX_ADDR
=
'h140
,
//TODO: assign valid add
er
ss
parameter
CMPRS_AFIMUX_ADDR
=
'h140
,
//TODO: assign valid add
re
ss
parameter
CMPRS_AFIMUX_MASK
=
'h3f0
,
parameter
CMPRS_AFIMUX_MASK
=
'h3f0
,
parameter
CMPRS_AFIMUX_EN
=
'h0
,
// enables (gl;obal and per-channel)
parameter
CMPRS_AFIMUX_EN
=
'h0
,
// enables (gl;obal and per-channel)
parameter
CMPRS_AFIMUX_RST
=
'h1
,
// per-channel resets
parameter
CMPRS_AFIMUX_RST
=
'h1
,
// per-channel resets
...
@@ -29,7 +29,7 @@ module cmprs_afi_mux#(
...
@@ -29,7 +29,7 @@ module cmprs_afi_mux#(
parameter
CMPRS_AFIMUX_STATUS_CNTRL
=
'h4
,
// .. 'h7
parameter
CMPRS_AFIMUX_STATUS_CNTRL
=
'h4
,
// .. 'h7
parameter
CMPRS_AFIMUX_SA_LEN
=
'h8
,
// .. 'hf
parameter
CMPRS_AFIMUX_SA_LEN
=
'h8
,
// .. 'hf
parameter
CMPRS_AFIMUX_STATUS_REG_ADDR
=
'h20
,
//Uses 4 locations TODO: assign valid add
er
ss
parameter
CMPRS_AFIMUX_STATUS_REG_ADDR
=
'h20
,
//Uses 4 locations TODO: assign valid add
re
ss
parameter
CMPRS_AFIMUX_WIDTH
=
26
,
// maximal for status: currently only works with 26)
parameter
CMPRS_AFIMUX_WIDTH
=
26
,
// maximal for status: currently only works with 26)
parameter
CMPRS_AFIMUX_CYCBITS
=
3
,
parameter
CMPRS_AFIMUX_CYCBITS
=
3
,
parameter
AFI_MUX_BUF_LATENCY
=
2
// buffers read latency from fifo_ren* to fifo_rdata* valid : 2 if no register layers are used
parameter
AFI_MUX_BUF_LATENCY
=
2
// buffers read latency from fifo_ren* to fifo_rdata* valid : 2 if no register layers are used
...
@@ -45,7 +45,7 @@ module cmprs_afi_mux#(
...
@@ -45,7 +45,7 @@ module cmprs_afi_mux#(
input
status_start
,
// Acknowledge of the first status packet byte (address)
input
status_start
,
// Acknowledge of the first status packet byte (address)
// compressor channel 0
// compressor channel 0
output
fifo_rst0
,
// reset FIFO (set read add
er
ss to write, reset count)
output
fifo_rst0
,
// reset FIFO (set read add
re
ss to write, reset count)
output
fifo_ren0
,
output
fifo_ren0
,
input
[
63
:
0
]
fifo_rdata0
,
input
[
63
:
0
]
fifo_rdata0
,
// input fifo_eof0, // single rclk pulse signalling EOF
// input fifo_eof0, // single rclk pulse signalling EOF
...
@@ -54,7 +54,7 @@ module cmprs_afi_mux#(
...
@@ -54,7 +54,7 @@ module cmprs_afi_mux#(
input
[
7
:
0
]
fifo_count0
,
// number of 32-byte chunks in FIFO
input
[
7
:
0
]
fifo_count0
,
// number of 32-byte chunks in FIFO
// compressor channel 1
// compressor channel 1
output
fifo_rst1
,
// reset FIFO (set read add
er
ss to write, reset count)
output
fifo_rst1
,
// reset FIFO (set read add
re
ss to write, reset count)
output
fifo_ren1
,
output
fifo_ren1
,
input
[
63
:
0
]
fifo_rdata1
,
input
[
63
:
0
]
fifo_rdata1
,
// input fifo_eof1, // single rclk pulse signalling EOF
// input fifo_eof1, // single rclk pulse signalling EOF
...
@@ -63,7 +63,7 @@ module cmprs_afi_mux#(
...
@@ -63,7 +63,7 @@ module cmprs_afi_mux#(
input
[
7
:
0
]
fifo_count1
,
// number of 32-byte chunks in FIFO
input
[
7
:
0
]
fifo_count1
,
// number of 32-byte chunks in FIFO
// compressor channel 2
// compressor channel 2
output
fifo_rst2
,
// reset FIFO (set read add
er
ss to write, reset count)
output
fifo_rst2
,
// reset FIFO (set read add
re
ss to write, reset count)
output
fifo_ren2
,
output
fifo_ren2
,
input
[
63
:
0
]
fifo_rdata2
,
input
[
63
:
0
]
fifo_rdata2
,
// input fifo_eof2, // single rclk pulse signalling EOF
// input fifo_eof2, // single rclk pulse signalling EOF
...
@@ -72,7 +72,7 @@ module cmprs_afi_mux#(
...
@@ -72,7 +72,7 @@ module cmprs_afi_mux#(
input
[
7
:
0
]
fifo_count2
,
// number of 32-byte chunks in FIFO
input
[
7
:
0
]
fifo_count2
,
// number of 32-byte chunks in FIFO
// compressor channel 3
// compressor channel 3
output
fifo_rst3
,
// reset FIFO (set read add
er
ss to write, reset count)
output
fifo_rst3
,
// reset FIFO (set read add
re
ss to write, reset count)
output
fifo_ren3
,
output
fifo_ren3
,
input
[
63
:
0
]
fifo_rdata3
,
input
[
63
:
0
]
fifo_rdata3
,
// input fifo_eof3, // single rclk pulse signalling EOF
// input fifo_eof3, // single rclk pulse signalling EOF
...
...
axi/cmprs_afi_mux_ptr.v
View file @
f92c85e2
...
@@ -99,7 +99,7 @@ module cmprs_afi_mux_ptr(
...
@@ -99,7 +99,7 @@ module cmprs_afi_mux_ptr(
(
busy
[
2
]
&&
!
busy
[
3
]
&&
last_burst_in_frame
)
;
// optionally update frame chunk pointer (same value)
(
busy
[
2
]
&&
!
busy
[
3
]
&&
last_burst_in_frame
)
;
// optionally update frame chunk pointer (same value)
if
(
busy
[
0
]
&&
!
busy
[
1
])
begin
// first clock of busy
if
(
busy
[
0
]
&&
!
busy
[
1
])
begin
// first clock of busy
// calculate full add
er
ss for current AXI burst (valid 1 clk after busy)
// calculate full add
re
ss for current AXI burst (valid 1 clk after busy)
chunk_addr
<=
ptr_ram
[
ptr_wa
]
+
sa_len_ram
[
sa_len_ra
]
;
chunk_addr
<=
ptr_ram
[
ptr_wa
]
+
sa_len_ram
[
sa_len_ra
]
;
chunk_ptr_inc
<=
ptr_ram
[
ptr_wa
]
+
chunk_inc
;
chunk_ptr_inc
<=
ptr_ram
[
ptr_wa
]
+
chunk_inc
;
end
end
...
...
axi/cmprs_afi_mux_status.v
View file @
f92c85e2
...
@@ -25,7 +25,7 @@
...
@@ -25,7 +25,7 @@
`timescale
1
ns
/
1
ps
`timescale
1
ns
/
1
ps
module
cmprs_afi_mux_status
#(
module
cmprs_afi_mux_status
#(
parameter
CMPRS_AFIMUX_STATUS_REG_ADDR
=
'h20
,
//Uses 4 locations TODO: assign valid add
er
ss
parameter
CMPRS_AFIMUX_STATUS_REG_ADDR
=
'h20
,
//Uses 4 locations TODO: assign valid add
re
ss
parameter
CMPRS_AFIMUX_WIDTH
=
26
,
// maximal for status: currently only works with 26)
parameter
CMPRS_AFIMUX_WIDTH
=
26
,
// maximal for status: currently only works with 26)
parameter
CMPRS_AFIMUX_CYCBITS
=
3
parameter
CMPRS_AFIMUX_CYCBITS
=
3
)
(
)
(
...
...
compressor_jp/cmprs_out_fifo.v
View file @
f92c85e2
...
@@ -32,7 +32,7 @@ module cmprs_out_fifo(
...
@@ -32,7 +32,7 @@ module cmprs_out_fifo(
// rclk domain
// rclk domain
input
rclk
,
input
rclk
,
input
rst_fifo
,
// reset FIFO (set read add
er
ss to write, reset count)
input
rst_fifo
,
// reset FIFO (set read add
re
ss to write, reset count)
input
ren
,
input
ren
,
output
[
63
:
0
]
rdata
,
output
[
63
:
0
]
rdata
,
output
eof
,
// single rclk pulse signalling EOF
output
eof
,
// single rclk pulse signalling EOF
...
...
compressor_jp/jp_channel.v
View file @
f92c85e2
...
@@ -21,7 +21,7 @@
...
@@ -21,7 +21,7 @@
`timescale
1
ns
/
1
ps
`timescale
1
ns
/
1
ps
module
jp_channel
#(
module
jp_channel
#(
parameter
CMPRS_ADDR
=
'h120
,
//TODO: assign valid add
er
ss
parameter
CMPRS_ADDR
=
'h120
,
//TODO: assign valid add
re
ss
parameter
CMPRS_MASK
=
'h3f8
,
parameter
CMPRS_MASK
=
'h3f8
,
parameter
CMPRS_CONTROL_REG
=
0
,
parameter
CMPRS_CONTROL_REG
=
0
,
parameter
CMPRS_STATUS_CNTRL
=
1
,
parameter
CMPRS_STATUS_CNTRL
=
1
,
...
@@ -29,7 +29,7 @@ module jp_channel#(
...
@@ -29,7 +29,7 @@ module jp_channel#(
parameter
CMPRS_COLOR_SATURATION
=
3
,
parameter
CMPRS_COLOR_SATURATION
=
3
,
parameter
CMPRS_CORING_MODE
=
4
,
parameter
CMPRS_CORING_MODE
=
4
,
parameter
CMPRS_TABLES
=
6
,
// 6..7
parameter
CMPRS_TABLES
=
6
,
// 6..7
parameter
CMPRS_STATUS_REG_ADDR
=
'h10
,
//TODO: assign valid add
er
ss
parameter
CMPRS_STATUS_REG_ADDR
=
'h10
,
//TODO: assign valid add
re
ss
parameter
FRAME_HEIGHT_BITS
=
16
,
// Maximal frame height
parameter
FRAME_HEIGHT_BITS
=
16
,
// Maximal frame height
parameter
LAST_FRAME_BITS
=
16
,
// number of bits in frame counter (before rolls over)
parameter
LAST_FRAME_BITS
=
16
,
// number of bits in frame counter (before rolls over)
...
@@ -147,7 +147,7 @@ module jp_channel#(
...
@@ -147,7 +147,7 @@ module jp_channel#(
// Output interface to the AFI mux
// Output interface to the AFI mux
input
hclk
,
input
hclk
,
input
fifo_rst
,
// reset FIFO (set read add
er
ss to write, reset count)
input
fifo_rst
,
// reset FIFO (set read add
re
ss to write, reset count)
input
fifo_ren
,
input
fifo_ren
,
output
[
63
:
0
]
fifo_rdata
,
output
[
63
:
0
]
fifo_rdata
,
output
fifo_eof
,
// single rclk pulse signalling EOF
output
fifo_eof
,
// single rclk pulse signalling EOF
...
@@ -876,7 +876,7 @@ module jp_channel#(
...
@@ -876,7 +876,7 @@ module jp_channel#(
.
eof_written_wclk
(
eof_written_xclk2xn
)
,
// output - AFI had transferred frame data to the system memory
.
eof_written_wclk
(
eof_written_xclk2xn
)
,
// output - AFI had transferred frame data to the system memory
.
rclk
(
hclk
)
,
// input - AFI clock
.
rclk
(
hclk
)
,
// input - AFI clock
// AFI clock domain
// AFI clock domain
.
rst_fifo
(
fifo_rst
)
,
// input - reset FIFO (set read add
er
ss to write, reset count)
.
rst_fifo
(
fifo_rst
)
,
// input - reset FIFO (set read add
re
ss to write, reset count)
.
ren
(
fifo_ren
)
,
// input - fifo read from AFI channel mux
.
ren
(
fifo_ren
)
,
// input - fifo read from AFI channel mux
.
rdata
(
fifo_rdata
)
,
// output[63:0] - data to AFI channel mux (latency == 2 from fifo_ren)
.
rdata
(
fifo_rdata
)
,
// output[63:0] - data to AFI channel mux (latency == 2 from fifo_ren)
.
eof
(
fifo_eof
)
,
// output single hclk pulse signalling EOF
.
eof
(
fifo_eof
)
,
// output single hclk pulse signalling EOF
...
...
includes/x393_mcontr_encode_cmd.vh
View file @
f92c85e2
...
@@ -53,7 +53,7 @@
...
@@ -53,7 +53,7 @@
endfunction
endfunction
function [31:0] func_encode_cmd;
function [31:0] func_encode_cmd;
input [14:0] addr; // 15-bit row/column add
er
ss
input [14:0] addr; // 15-bit row/column add
re
ss
input [2:0] bank; // bank (here OK to be any)
input [2:0] bank; // bank (here OK to be any)
input [2:0] rcw; // RAS/CAS/WE, positive logic
input [2:0] rcw; // RAS/CAS/WE, positive logic
input odt_en; // enable ODT
input odt_en; // enable ODT
...
@@ -69,7 +69,7 @@
...
@@ -69,7 +69,7 @@
input buf_rst; // connect to external buffer (but only if not paused)
input buf_rst; // connect to external buffer (but only if not paused)
begin
begin
func_encode_cmd={
func_encode_cmd={
addr[14:0], // 15-bit row/column add
er
ss
addr[14:0], // 15-bit row/column add
re
ss
bank [2:0], // bank
bank [2:0], // bank
rcw[2:0], // RAS/CAS/WE
rcw[2:0], // RAS/CAS/WE
odt_en, // enable ODT
odt_en, // enable ODT
...
...
includes/x393_tasks_afi.vh
View file @
f92c85e2
...
@@ -22,7 +22,7 @@
...
@@ -22,7 +22,7 @@
task membridge_setup;
task membridge_setup;
input [28:0] len64; // number of 64-bit words to transfer
input [28:0] len64; // number of 64-bit words to transfer
input [28:0] width64; // frame width in 64-bit words
input [28:0] width64; // frame width in 64-bit words
input [28:0] start64; // relative start add
er
ss of the transfer (set to 0 when writing lo_addr64)
input [28:0] start64; // relative start add
re
ss of the transfer (set to 0 when writing lo_addr64)
input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
input [28:0] size64; // size of the system memory range in 64-bit words
input [28:0] size64; // size of the system memory range in 64-bit words
...
...
memctrl/cmd_encod_linear_rd.v
View file @
f92c85e2
...
@@ -165,7 +165,7 @@ module cmd_encod_linear_rd #(
...
@@ -165,7 +165,7 @@ module cmd_encod_linear_rd #(
else
enc_cmd
<=
func_encode_cmd
(
// encode non-NOP command
else
enc_cmd
<=
func_encode_cmd
(
// encode non-NOP command
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row:
row:
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
{
1'b0
}},
col
[
COLADDR_NUMBER
-
4
:
0
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
{
1'b0
}},
col
[
COLADDR_NUMBER
-
4
:
0
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
bank
[
2
:
0
]
,
// bank (here OK to be any)
bank
[
2
:
0
]
,
// bank (here OK to be any)
full_cmd
[
2
:
0
]
,
// rcw; // RAS/CAS/WE, positive logic
full_cmd
[
2
:
0
]
,
// rcw; // RAS/CAS/WE, positive logic
1'b0
,
// odt_en; // enable ODT
1'b0
,
// odt_en; // enable ODT
...
@@ -201,7 +201,7 @@ module cmd_encod_linear_rd #(
...
@@ -201,7 +201,7 @@ module cmd_encod_linear_rd #(
input buf_rst; // connect to external buffer (but only if not paused)
input buf_rst; // connect to external buffer (but only if not paused)
begin
begin
func_encode_skip= func_encode_cmd (
func_encode_skip= func_encode_cmd (
{{14-CMD_DONE_BIT{1'b0}}, done, skip[CMD_PAUSE_BITS-1:0]}, // 15-bit row/column add
er
ss
{{14-CMD_DONE_BIT{1'b0}}, done, skip[CMD_PAUSE_BITS-1:0]}, // 15-bit row/column add
re
ss
bank[2:0], // bank (here OK to be any)
bank[2:0], // bank (here OK to be any)
3'b0, // RAS/CAS/WE, positive logic
3'b0, // RAS/CAS/WE, positive logic
odt_en, // enable ODT
odt_en, // enable ODT
...
@@ -219,7 +219,7 @@ module cmd_encod_linear_rd #(
...
@@ -219,7 +219,7 @@ module cmd_encod_linear_rd #(
endfunction
endfunction
function [31:0] func_encode_cmd;
function [31:0] func_encode_cmd;
input [14:0] addr; // 15-bit row/column add
er
ss
input [14:0] addr; // 15-bit row/column add
re
ss
input [2:0] bank; // bank (here OK to be any)
input [2:0] bank; // bank (here OK to be any)
input [2:0] rcw; // RAS/CAS/WE, positive logic
input [2:0] rcw; // RAS/CAS/WE, positive logic
input odt_en; // enable ODT
input odt_en; // enable ODT
...
@@ -235,7 +235,7 @@ module cmd_encod_linear_rd #(
...
@@ -235,7 +235,7 @@ module cmd_encod_linear_rd #(
input buf_rst; // connect to external buffer (but only if not paused)
input buf_rst; // connect to external buffer (but only if not paused)
begin
begin
func_encode_cmd={
func_encode_cmd={
addr[14:0], // 15-bit row/column add
er
ss
addr[14:0], // 15-bit row/column add
re
ss
bank [2:0], // bank
bank [2:0], // bank
rcw[2:0], // RAS/CAS/WE
rcw[2:0], // RAS/CAS/WE
odt_en, // enable ODT
odt_en, // enable ODT
...
...
memctrl/cmd_encod_linear_wr.v
View file @
f92c85e2
...
@@ -233,7 +233,7 @@ module cmd_encod_linear_wr #(
...
@@ -233,7 +233,7 @@ module cmd_encod_linear_wr #(
else
enc_cmd
<=
func_encode_cmd
(
// encode non-NOP command
else
enc_cmd
<=
func_encode_cmd
(
// encode non-NOP command
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row:
row:
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
{
1'b0
}},
col
[
COLADDR_NUMBER
-
4
:
0
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
{
1'b0
}},
col
[
COLADDR_NUMBER
-
4
:
0
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
bank
[
2
:
0
]
,
// bank (here OK to be any)
bank
[
2
:
0
]
,
// bank (here OK to be any)
full_cmd
[
2
:
0
]
,
// rcw; // RAS/CAS/WE, positive logic
full_cmd
[
2
:
0
]
,
// rcw; // RAS/CAS/WE, positive logic
rom_r
[
ENC_ODT
]
,
// odt_en; // enable ODT
rom_r
[
ENC_ODT
]
,
// odt_en; // enable ODT
...
...
memctrl/cmd_encod_tiled_32_rd.v
View file @
f92c85e2
...
@@ -265,7 +265,7 @@ module cmd_encod_tiled_32_rd #(
...
@@ -265,7 +265,7 @@ module cmd_encod_tiled_32_rd #(
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
enable_autopre
&
~
rom_r
[
ENC_NOP
]
,
enable_autopre
&
~
rom_r
[
ENC_NOP
]
,
{
col_bank
[
COLADDR_NUMBER
-
1
:
4
]
,~
rom_r
[
ENC_NOP
]
},
{
col_bank
[
COLADDR_NUMBER
-
1
:
4
]
,~
rom_r
[
ENC_NOP
]
},
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row_col_bank
[
2
:
0
]
:
row_col_bank
[
2
:
0
]
:
col_bank
[
2
:
0
]
,
//
col_bank
[
2
:
0
]
,
//
...
...
memctrl/cmd_encod_tiled_32_wr.v
View file @
f92c85e2
...
@@ -274,7 +274,7 @@ module cmd_encod_tiled_32_wr #(
...
@@ -274,7 +274,7 @@ module cmd_encod_tiled_32_wr #(
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
enable_autopre
&
rom_r
[
ENC_AUTOPRE
]
,
// all writes w/o NOP are first writes, autoprecharge only fro the second ones
enable_autopre
&
rom_r
[
ENC_AUTOPRE
]
,
// all writes w/o NOP are first writes, autoprecharge only fro the second ones
{
col_bank
[
COLADDR_NUMBER
-
1
:
4
]
,
rom_r
[
ENC_AUTOPRE
]
},
{
col_bank
[
COLADDR_NUMBER
-
1
:
4
]
,
rom_r
[
ENC_AUTOPRE
]
},
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row_col_bank
[
2
:
0
]
:
row_col_bank
[
2
:
0
]
:
col_bank
[
2
:
0
]
,
//
col_bank
[
2
:
0
]
,
//
...
...
memctrl/cmd_encod_tiled_rd.v
View file @
f92c85e2
...
@@ -260,7 +260,7 @@ module cmd_encod_tiled_rd #(
...
@@ -260,7 +260,7 @@ module cmd_encod_tiled_rd #(
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
enable_autopre
,
enable_autopre
,
col_bank
[
COLADDR_NUMBER
-
1
:
3
]
,
col_bank
[
COLADDR_NUMBER
-
1
:
3
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row_col_bank
[
2
:
0
]
:
row_col_bank
[
2
:
0
]
:
col_bank
[
2
:
0
]
,
//
col_bank
[
2
:
0
]
,
//
...
...
memctrl/cmd_encod_tiled_wr.v
View file @
f92c85e2
...
@@ -269,7 +269,7 @@ module cmd_encod_tiled_wr #(
...
@@ -269,7 +269,7 @@ module cmd_encod_tiled_wr #(
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
enable_autopre
,
enable_autopre
,
col_bank
[
COLADDR_NUMBER
-
1
:
3
]
,
col_bank
[
COLADDR_NUMBER
-
1
:
3
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column add
er
ss
3'b0
},
// [14:0] addr; // 15-bit row/column add
re
ss
rom_cmd
[
1
]
?
rom_cmd
[
1
]
?
row_col_bank
[
2
:
0
]
:
row_col_bank
[
2
:
0
]
:
col_bank
[
2
:
0
]
,
//
col_bank
[
2
:
0
]
,
//
...
...
memctrl/mcntrl_linear_rw.v
View file @
f92c85e2
...
@@ -142,7 +142,7 @@ module mcntrl_linear_rw #(
...
@@ -142,7 +142,7 @@ module mcntrl_linear_rw #(
wire
single_frame_w
;
// pulse
wire
single_frame_w
;
// pulse
wire
rst_frame_num_w
;
wire
rst_frame_num_w
;
reg
single_frame_r
;
// pulse
reg
single_frame_r
;
// pulse
reg
[
1
:
0
]
rst_frame_num_r
;
// reset frame number/next start add
er
ss
reg
[
1
:
0
]
rst_frame_num_r
;
// reset frame number/next start add
re
ss
reg
frame_en
;
// enable next frame
reg
frame_en
;
// enable next frame
reg
busy_r
;
reg
busy_r
;
...
...
memctrl/mcntrl_tiled_rw.v
View file @
f92c85e2
...
@@ -152,7 +152,7 @@ module mcntrl_tiled_rw#(
...
@@ -152,7 +152,7 @@ module mcntrl_tiled_rw#(
wire
single_frame_w
;
// pulse
wire
single_frame_w
;
// pulse
wire
rst_frame_num_w
;
wire
rst_frame_num_w
;
reg
single_frame_r
;
// pulse
reg
single_frame_r
;
// pulse
reg
[
1
:
0
]
rst_frame_num_r
;
// reset frame number/next start add
er
ss
reg
[
1
:
0
]
rst_frame_num_r
;
// reset frame number/next start add
re
ss
reg
frame_en
;
// enable next frame
reg
frame_en
;
// enable next frame
reg
busy_r
;
reg
busy_r
;
...
...
memctrl/phy/ddrc_sequencer.v
View file @
f92c85e2
...
@@ -154,7 +154,7 @@ module ddrc_sequencer #(
...
@@ -154,7 +154,7 @@ module ddrc_sequencer #(
wire
rst
=
rst_in
;
wire
rst
=
rst_in
;
// wire [ 9:0] next_cmd_addr;
// wire [ 9:0] next_cmd_addr;
reg
[
9
:
0
]
cmd_addr
;
// command word add
er
ss
reg
[
9
:
0
]
cmd_addr
;
// command word add
re
ss
reg
cmd_sel
;
reg
cmd_sel
;
reg
[
2
:
0
]
cmd_busy
;
// bit 0 - immediately,
reg
[
2
:
0
]
cmd_busy
;
// bit 0 - immediately,
wire
phy_cmd_nop
;
// decoded command (ras, cas, we) was NOP
wire
phy_cmd_nop
;
// decoded command (ras, cas, we) was NOP
...
...
memctrl/phy/mcontr_sequencer.v
View file @
f92c85e2
...
@@ -236,7 +236,7 @@ module mcontr_sequencer #(
...
@@ -236,7 +236,7 @@ module mcontr_sequencer #(
wire
rst
=
rst_in
;
wire
rst
=
rst_in
;
// wire [ 9:0] next_cmd_addr;
// wire [ 9:0] next_cmd_addr;
reg
[
9
:
0
]
cmd_addr
;
// command word add
er
ss
reg
[
9
:
0
]
cmd_addr
;
// command word add
re
ss
reg
cmd_sel
;
reg
cmd_sel
;
reg
[
2
:
0
]
cmd_busy
;
// bit 0 - immediately,
reg
[
2
:
0
]
cmd_busy
;
// bit 0 - immediately,
wire
phy_cmd_nop
;
// decoded command (ras, cas, we) was NOP
wire
phy_cmd_nop
;
// decoded command (ras, cas, we) was NOP
...
...
timing/camsync393.v
View file @
f92c85e2
...
@@ -29,7 +29,7 @@
...
@@ -29,7 +29,7 @@
// TODO: see what depends on pclk and if can be made independent of the sensor clock.
// TODO: see what depends on pclk and if can be made independent of the sensor clock.
module
camsync393
#(
module
camsync393
#(
parameter
CAMSYNC_ADDR
=
'h160
,
//TODO: assign valid add
er
ss
parameter
CAMSYNC_ADDR
=
'h160
,
//TODO: assign valid add
re
ss
parameter
CAMSYNC_MASK
=
'h3f8
,
parameter
CAMSYNC_MASK
=
'h3f8
,
parameter
CAMSYNC_MODE
=
'h0
,
parameter
CAMSYNC_MODE
=
'h0
,
parameter
CAMSYNC_TRIG_SRC
=
'h4
,
// setup trigger source
parameter
CAMSYNC_TRIG_SRC
=
'h4
,
// setup trigger source
...
@@ -39,6 +39,7 @@ module camsync393 #(
...
@@ -39,6 +39,7 @@ module camsync393 #(
parameter
CAMSYNC_SNDEN_BIT
=
'h1
,
// enable writing ts_snd_en
parameter
CAMSYNC_SNDEN_BIT
=
'h1
,
// enable writing ts_snd_en
parameter
CAMSYNC_EXTERNAL_BIT
=
'h3
,
// enable writing ts_external
parameter
CAMSYNC_EXTERNAL_BIT
=
'h3
,
// enable writing ts_external
parameter
CAMSYNC_TRIGGERED_BIT
=
'h5
,
// enable writing ts_external
parameter
CAMSYNC_PRE_MAGIC
=
6'b110100
,
parameter
CAMSYNC_PRE_MAGIC
=
6'b110100
,
parameter
CAMSYNC_POST_MAGIC
=
6'b001101
parameter
CAMSYNC_POST_MAGIC
=
6'b001101
...
@@ -51,6 +52,7 @@ module camsync393 #(
...
@@ -51,6 +52,7 @@ module camsync393 #(
// 0 - mode: [1:0] +2 - reset ts_snd_en, +3 - set ts_snd_en - enable sending timestamp over sync line
// 0 - mode: [1:0] +2 - reset ts_snd_en, +3 - set ts_snd_en - enable sending timestamp over sync line
// [3:2] +8 - reset ts_external, +'hc - set ts_external:
// [3:2] +8 - reset ts_external, +'hc - set ts_external:
// 1 - use external timestamp, if available. 0 - always use local ts
// 1 - use external timestamp, if available. 0 - always use local ts
// [5:4] +'h20 - reset triggered mode (free running sensor), +'h30 - set sensor triggered mode
// 4 - source of trigger (10 bit pairs, LSB - level to trigger, MSB - use this bit). All 0 - internal trigger
// 4 - source of trigger (10 bit pairs, LSB - level to trigger, MSB - use this bit). All 0 - internal trigger
// in internal mode output has variable delay from the internal trigger (relative to sensor trigger)
// in internal mode output has variable delay from the internal trigger (relative to sensor trigger)
...
@@ -64,7 +66,8 @@ module camsync393 #(
...
@@ -64,7 +66,8 @@ module camsync393 #(
// 256>=d - repetitive trigger
// 256>=d - repetitive trigger
input
pclk
,
// pixel clock (global)
input
pclk
,
// pixel clock (global)
input
triggered_mode
,
// use triggered mode (0 - sensor is free-running)
output
triggered_mode
,
// use triggered mode (0 - sensor is free-running) @mclk
// trigrst is already combined with cb_sensor_trigger
input
trigrst
,
// single-clock start of frame input (resets trigger output) posedge
input
trigrst
,
// single-clock start of frame input (resets trigger output) posedge
input
[
9
:
0
]
gpio_in
,
// 12-bit input from GPIO pins -> 10 bit
input
[
9
:
0
]
gpio_in
,
// 12-bit input from GPIO pins -> 10 bit
output
[
9
:
0
]
gpio_out
,
// 12-bit output to GPIO pins
output
[
9
:
0
]
gpio_out
,
// 12-bit output to GPIO pins
...
@@ -105,7 +108,7 @@ module camsync393 #(
...
@@ -105,7 +108,7 @@ module camsync393 #(
// TODO: change to control bit fields
// TODO: change to control bit fields
reg
ts_snd_en
;
// enable sending timestamp over sync line
reg
ts_snd_en
;
// enable sending timestamp over sync line
reg
ts_external
;
// 1 - use external timestamp, if available. 0 - always use local ts
reg
ts_external
;
// 1 - use external timestamp, if available. 0 - always use local ts
reg
triggered_mode_r
;
// TODO: remove next 2
// TODO: remove next 2
wire
[
31
:
0
]
ts_snd_sec
;
// [31:0] timestamp seconds to be sent over the sync line
wire
[
31
:
0
]
ts_snd_sec
;
// [31:0] timestamp seconds to be sent over the sync line
wire
[
19
:
0
]
ts_snd_usec
;
// [19:0] timestamp microseconds to be sent over the sync line
wire
[
19
:
0
]
ts_snd_usec
;
// [19:0] timestamp microseconds to be sent over the sync line
...
@@ -209,6 +212,7 @@ module camsync393 #(
...
@@ -209,6 +212,7 @@ module camsync393 #(
wire
local_got
;
// received local timestamp (@ posedge mclk)
wire
local_got
;
// received local timestamp (@ posedge mclk)
wire
local_got_pclk
;
// local_got reclocked @pclk
wire
local_got_pclk
;
// local_got reclocked @pclk
reg
ts_snap
;
// make a timestamp pulse single @(posedge pclk)
reg
ts_snap
;
// make a timestamp pulse single @(posedge pclk)
wire
trigrst_or_freerun
;
// trigger reset (2pclk, vacts) or sensor is in fre running mode
//! in testmode GPIO[9] and GPIO[8] use internal signals instead of the outsync:
//! in testmode GPIO[9] and GPIO[8] use internal signals instead of the outsync:
//! bit 11 - same as TRIGGER output to the sensor (signal to the sensor may be disabled externally)
//! bit 11 - same as TRIGGER output to the sensor (signal to the sensor may be disabled externally)
...
@@ -240,11 +244,15 @@ module camsync393 #(
...
@@ -240,11 +244,15 @@ module camsync393 #(
assign
set_trig_period_w
=
cmd_we
&&
(
cmd_a
==
CAMSYNC_TRIG_PERIOD
)
;
assign
set_trig_period_w
=
cmd_we
&&
(
cmd_a
==
CAMSYNC_TRIG_PERIOD
)
;
assign
pre_input_use
=
{
cmd_data
[
19
]
,
cmd_data
[
17
]
,
cmd_data
[
15
]
,
cmd_data
[
13
]
,
cmd_data
[
11
]
,
cmd_data
[
9
]
,
cmd_data
[
7
]
,
cmd_data
[
5
]
,
cmd_data
[
3
]
,
cmd_data
[
1
]
};
assign
pre_input_use
=
{
cmd_data
[
19
]
,
cmd_data
[
17
]
,
cmd_data
[
15
]
,
cmd_data
[
13
]
,
cmd_data
[
11
]
,
cmd_data
[
9
]
,
cmd_data
[
7
]
,
cmd_data
[
5
]
,
cmd_data
[
3
]
,
cmd_data
[
1
]
};
assign
pre_input_pattern
=
{
cmd_data
[
18
]
,
cmd_data
[
16
]
,
cmd_data
[
14
]
,
cmd_data
[
12
]
,
cmd_data
[
10
]
,
cmd_data
[
8
]
,
cmd_data
[
6
]
,
cmd_data
[
4
]
,
cmd_data
[
2
]
,
cmd_data
[
0
]
};
assign
pre_input_pattern
=
{
cmd_data
[
18
]
,
cmd_data
[
16
]
,
cmd_data
[
14
]
,
cmd_data
[
12
]
,
cmd_data
[
10
]
,
cmd_data
[
8
]
,
cmd_data
[
6
]
,
cmd_data
[
4
]
,
cmd_data
[
2
]
,
cmd_data
[
0
]
};
assign
triggered_mode
=
triggered_mode_r
;
assign
trigrst_or_freerun
=
trigrst
||
!
triggered_mode_pclk
;
always
@
(
posedge
mclk
)
begin
always
@
(
posedge
mclk
)
begin
if
(
set_mode_reg_w
)
begin
if
(
set_mode_reg_w
)
begin
if
(
cmd_data
[
CAMSYNC_SNDEN_BIT
])
ts_snd_en
<=
cmd_data
[
CAMSYNC_SNDEN_BIT
-
1
]
;
if
(
cmd_data
[
CAMSYNC_SNDEN_BIT
])
ts_snd_en
<=
cmd_data
[
CAMSYNC_SNDEN_BIT
-
1
]
;
if
(
cmd_data
[
CAMSYNC_EXTERNAL_BIT
])
ts_external
<=
cmd_data
[
CAMSYNC_EXTERNAL_BIT
-
1
]
;
if
(
cmd_data
[
CAMSYNC_EXTERNAL_BIT
])
ts_external
<=
cmd_data
[
CAMSYNC_EXTERNAL_BIT
-
1
]
;
if
(
cmd_data
[
CAMSYNC_TRIGGERED_BIT
])
triggered_mode_r
<=
cmd_data
[
CAMSYNC_TRIGGERED_BIT
-
1
]
;
end
end
if
(
set_trig_src_w
)
begin
if
(
set_trig_src_w
)
begin
input_use
<=
pre_input_use
;
input_use
<=
pre_input_use
;
...
@@ -314,9 +322,9 @@ module camsync393 #(
...
@@ -314,9 +322,9 @@ module camsync393 #(
always
@
(
posedge
rst
or
posedge
pclk
)
begin
always
@
(
posedge
rst
or
posedge
pclk
)
begin
if
(
rst
)
dly_cntr_run
<=
0
;
if
(
rst
)
dly_cntr_run
<=
0
;
else
dly_cntr_run
<=
triggered_mode
&&
(
start_dly
||
(
dly_cntr_run
&&
(
dly_cntr
[
31
:
0
]
!=
0
)))
;
else
dly_cntr_run
<=
triggered_mode
_pclk
&&
(
start_dly
||
(
dly_cntr_run
&&
(
dly_cntr
[
31
:
0
]
!=
0
)))
;
if
(
rst
)
trigger_r
<=
0
;
if
(
rst
)
trigger_r
<=
0
;
else
trigger_r
<=
trigrst
?
1'b0
:
(
trigger1_r
^
trigger_r
)
;
else
trigger_r
<=
trigrst
_or_freerun
?
1'b0
:
(
trigger1_r
^
trigger_r
)
;
end
end
...
@@ -332,18 +340,17 @@ module camsync393 #(
...
@@ -332,18 +340,17 @@ module camsync393 #(
/// if the trigger pulses continue to come.
/// if the trigger pulses continue to come.
assign
pre_rcv_error
=
(
sr_rcv_first
[
31
:
26
]
!=
CAMSYNC_PRE_MAGIC
)
||
(
sr_rcv_second
[
5
:
0
]
!=
CAMSYNC_POST_MAGIC
)
;
assign
pre_rcv_error
=
(
sr_rcv_first
[
31
:
26
]
!=
CAMSYNC_PRE_MAGIC
)
||
(
sr_rcv_second
[
5
:
0
]
!=
CAMSYNC_POST_MAGIC
)
;
// FD i_trigger (.C(pclk),.D(trigrst?1'b0:(trigger1_r ^ trigger)), .Q(trigger)); // for simulator to be happy
always
@
(
posedge
pclk
)
begin
always
@
(
posedge
pclk
)
begin
if
(
trigrst
)
overdue
<=
1'b0
;
if
(
trigrst
_or_freerun
)
overdue
<=
1'b0
;
else
if
(
trigger1_r
)
overdue
<=
trigger
;
else
if
(
trigger1_r
)
overdue
<=
trigger
;
triggered_mode_pclk
<=
triggered_mode
;
triggered_mode_pclk
<=
triggered_mode
_r
;
bit_length_short
[
7
:
0
]
<=
bit_length
[
7
:
0
]
-
bit_length_plus1
[
7
:
2
]
-
1
;
// 3/4 of the duration
bit_length_short
[
7
:
0
]
<=
bit_length
[
7
:
0
]
-
bit_length_plus1
[
7
:
2
]
-
1
;
// 3/4 of the duration
trigger_condition
<=
(((
gpio_in
[
9
:
0
]
^
input_pattern
[
9
:
0
])
&
input_use
[
9
:
0
])
==
10'b0
)
;
trigger_condition
<=
(((
gpio_in
[
9
:
0
]
^
input_pattern
[
9
:
0
])
&
input_use
[
9
:
0
])
==
10'b0
)
;
trigger_condition_d
<=
trigger_condition
;
trigger_condition_d
<=
trigger_condition
;
if
(
!
triggered_mode
||
(
trigger_condition
!=
trigger_condition_d
))
trigger_filter_cntr
<=
{
1'b0
,
bit_length
[
7
:
2
]
};
if
(
!
triggered_mode
_pclk
||
(
trigger_condition
!=
trigger_condition_d
))
trigger_filter_cntr
<=
{
1'b0
,
bit_length
[
7
:
2
]
};
else
if
(
!
trigger_filter_cntr
[
6
])
trigger_filter_cntr
<=
trigger_filter_cntr
-
1
;
else
if
(
!
trigger_filter_cntr
[
6
])
trigger_filter_cntr
<=
trigger_filter_cntr
-
1
;
if
(
input_use_intern
)
trigger_condition_filtered
<=
1'b0
;
if
(
input_use_intern
)
trigger_condition_filtered
<=
1'b0
;
...
...
util_modules/cmd_frame_sequencer.v
View file @
f92c85e2
...
@@ -48,7 +48,7 @@
...
@@ -48,7 +48,7 @@
// [13:12] - 3 - run seq, 2 - stop seq , 1,0 - no change to run state
// [13:12] - 3 - run seq, 2 - stop seq , 1,0 - no change to run state
module
cmd_frame_sequencer
#(
module
cmd_frame_sequencer
#(
parameter
CMDFRAMESEQ_ADDR
=
'h160
,
//TODO: assign valid add
er
ss
parameter
CMDFRAMESEQ_ADDR
=
'h160
,
//TODO: assign valid add
re
ss
parameter
CMDFRAMESEQ_MASK
=
'h3e0
,
parameter
CMDFRAMESEQ_MASK
=
'h3e0
,
parameter
AXI_WR_ADDR_BITS
=
14
,
parameter
AXI_WR_ADDR_BITS
=
14
,
parameter
CMDFRAMESEQ_DEPTH
=
64
,
// 32/64/128
parameter
CMDFRAMESEQ_DEPTH
=
64
,
// 32/64/128
...
...
util_modules/table_ad_transmit.v
View file @
f92c85e2
...
@@ -29,8 +29,8 @@ module table_ad_transmit#(
...
@@ -29,8 +29,8 @@ module table_ad_transmit#(
input
clk
,
// posedge mclk
input
clk
,
// posedge mclk
input
a_not_d_in
,
// address/not data input (valid @ we)
input
a_not_d_in
,
// address/not data input (valid @ we)
input
we
,
// write address/data (single cycle) with at least 5 inactive between
input
we
,
// write address/data (single cycle) with at least 5 inactive between
input
[
31
:
0
]
din
,
// 32 bit data to send or 8-bit channel select concatenated with 24-bit byte add
er
ss (@we)
input
[
31
:
0
]
din
,
// 32 bit data to send or 8-bit channel select concatenated with 24-bit byte add
re
ss (@we)
output
[
7
:
0
]
ser_d
,
// 8-bit add
er
ss/data to be sent to submodules that have table write port(s)
output
[
7
:
0
]
ser_d
,
// 8-bit add
re
ss/data to be sent to submodules that have table write port(s)
output
reg
a_not_d
,
// sending adderass / not data - valid during all bytes
output
reg
a_not_d
,
// sending adderass / not data - valid during all bytes
output
reg
[
NUM_CHANNELS
-
1
:
0
]
chn_en
// sending address or data
output
reg
[
NUM_CHANNELS
-
1
:
0
]
chn_en
// sending address or data
)
;
)
;
...
...
x393_testbench01.tf
View file @
f92c85e2
...
@@ -550,7 +550,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
...
@@ -550,7 +550,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_X0, // input [15:0] window_left;
WINDOW_X0, // input [15:0] window_left;
WINDOW_Y0, // input [15:0] window_top;
WINDOW_Y0, // input [15:0] window_top;
0, // input [28:0] start64; // relative start add
er
ss of the transfer (set to 0 when writing lo_addr64)
0, // input [28:0] start64; // relative start add
re
ss of the transfer (set to 0 when writing lo_addr64)
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
0); // input continue; // 0 start from start64, 1 - continue from where it was
0); // input continue; // 0 start from start64, 1 - continue from where it was
...
@@ -569,7 +569,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
...
@@ -569,7 +569,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_X0, // input [15:0] window_left;
WINDOW_X0, // input [15:0] window_left;
WINDOW_Y0, // input [15:0] window_top;
WINDOW_Y0, // input [15:0] window_top;
0, // input [28:0] start64; // relative start add
er
ss of the transfer (set to 0 when writing lo_addr64)
0, // input [28:0] start64; // relative start add
re
ss of the transfer (set to 0 when writing lo_addr64)
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
0); // input continue; // 0 start from start64, 1 - continue from where it was
0); // input continue; // 0 start from start64, 1 - continue from where it was
...
@@ -583,7 +583,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
...
@@ -583,7 +583,7 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_HEIGHT, // input [15:0] window_height; // 16 bit (only 14 are used here)
WINDOW_X0, // input [15:0] window_left;
WINDOW_X0, // input [15:0] window_left;
WINDOW_Y0, // input [15:0] window_top;
WINDOW_Y0, // input [15:0] window_top;
0, // input [28:0] start64; // relative start add
er
ss of the transfer (set to 0 when writing lo_addr64)
0, // input [28:0] start64; // relative start add
re
ss of the transfer (set to 0 when writing lo_addr64)
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_LO_ADDR64, // input [28:0] lo_addr64; // low address of the system memory range, in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
AFI_SIZE64, // input [28:0] size64; // size of the system memory range in 64-bit words
0); // input continue; // 0 start from start64, 1 - continue from where it was
0); // input continue; // 0 start from start64, 1 - continue from where it was
...
@@ -1442,7 +1442,7 @@ task test_afi_rw; // SuppressThisWarning VEditor - may be unused
...
@@ -1442,7 +1442,7 @@ task test_afi_rw; // SuppressThisWarning VEditor - may be unused
input
[
15
:
0
]
window_height
;
// 16 bit (only 14 are used here)
input
[
15
:
0
]
window_height
;
// 16 bit (only 14 are used here)
input
[
15
:
0
]
window_left
;
input
[
15
:
0
]
window_left
;
input
[
15
:
0
]
window_top
;
input
[
15
:
0
]
window_top
;
input
[
28
:
0
]
start64
;
// relative start add
er
ss of the transfer (set to 0 when writing lo_addr64)
input
[
28
:
0
]
start64
;
// relative start add
re
ss of the transfer (set to 0 when writing lo_addr64)
input
[
28
:
0
]
lo_addr64
;
// low address of the system memory range, in 64-bit words
input
[
28
:
0
]
lo_addr64
;
// low address of the system memory range, in 64-bit words
input
[
28
:
0
]
size64
;
// size of the system memory range in 64-bit words
input
[
28
:
0
]
size64
;
// size of the system memory range in 64-bit words
input
continue
;
// 0 start from start64, 1 - continue from where it was
input
continue
;
// 0 start from start64, 1 - continue from where it was
...
...
Write
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