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Elphel
x393
Commits
31a6b971
Commit
31a6b971
authored
Feb 20, 2015
by
Andrey Filippov
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added tile write (column order)
parent
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cmd_encod_tiled_wr.v
memctrl/cmd_encod_tiled_wr.v
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memctrl/cmd_encod_tiled_wr.v
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31a6b971
/*******************************************************************************
* Module: cmd_encod_tiled_wr
* Date:2015-02-19
* Author: andrey
* Description: Command sequencer generator for writing a tiled area
* up to 1 kB. Memory is mapped so 8 consecuitive rows have same RA, CA
* and alternating BA (0 to 7). Data will be read in columns 16 bytes wide,
* then proceding to the next column (if >1).
* If number of rows is less than 8 it is possible to use keep_open_in input,
* then there will be no ACTIVATE in other than first column and
* AUTO RECHARGE will be applied only to the last column (single column OK).
* if number of rows >=8, that port is ignored. If number of rows is less than
* 5 (less for slower clock) without keep_open_in tRTP may be not matched.
* Seems that actual tile heigt mod 8 should be only 0, 6 or7
* Copyright (c) 2015 <set up in Preferences-Verilog/VHDL Editor-Templates> .
* cmd_encod_tiled_wr.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.
*
* cmd_encod_tiled_wr.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/> .
*******************************************************************************/
`timescale
1
ns
/
1
ps
/*
Minimal ACTIVATE period =4 Tcm or 10ns, so maximal no-miss rate is Tck=1.25 ns (800 MHz)
Minimal window of 4 ACTIVATE pulses - 16 Tck or 40 (40 ns), so one ACTIVATE per 8 Tck is still OK down to 1.25 ns
Reads are in 16-byte colums: 1 8-burst (16 bytes) in a row, then next row, bank inc first. Then (if needed) - next column
Number of rows should be >=5 (4 now for tCK=2.5ns to meet tRP (precharge to activate) of the same bank (tRP=13ns)
Can read less if just one column
TODO: Maybe allow less rows with different sequence (no autoprecharge/no activate?) Will not work if row crosses page boundary
number fo rows>1!
Known issues:
1: Most tile heights cause timing violation. Valid height mod 8 can be 0,6,7 (1,2,3,4,5 - invalid)
2: With option "keep_open" there should be no page boundary crossings, caller only checks the first line, and if window full width
is not multiple of CAS page, page crossings can appear on other than first line (fix caller to use largest common divider of page and
frame full width? Seems easy to fix
*/
module
cmd_encod_tiled_wr
#(
parameter
ADDRESS_NUMBER
=
15
,
parameter
COLADDR_NUMBER
=
10
,
parameter
CMD_PAUSE_BITS
=
10
,
parameter
CMD_DONE_BIT
=
10
,
// VDT BUG: CMD_DONE_BIT is used in a function call parameter!
parameter
FRAME_WIDTH_BITS
=
13
// Maximal frame width - 8-word (16 bytes) bursts
)
(
input
rst
,
input
clk
,
// programming interface
input
[
2
:
0
]
start_bank
,
// bank address
input
[
ADDRESS_NUMBER
-
1
:
0
]
start_row
,
// memory row
input
[
COLADDR_NUMBER
-
4
:
0
]
start_col
,
// start memory column in 8-bit bursts
input
[
FRAME_WIDTH_BITS
:
0
]
rowcol_inc_in
,
// increment {row.col} when bank rolls over, removed 3 LSBs (in 8-bursts)
input
[
5
:
0
]
num_rows_in_m1
,
// number of rows to read minus 1
input
[
5
:
0
]
num_cols_in_m1
,
// number of 16-pixel columns to read (rows first, then columns) - 1
input
keep_open_in
,
// keep banks open (for <=8 banks only
input
skip_next_page_in
,
// do not reset external buffer (continue)
input
start
,
// start generating commands
output
reg
[
31
:
0
]
enc_cmd
,
// encoded commnad
output
reg
enc_wr
,
// write encoded command
output
reg
enc_done
// encoding finished
)
;
localparam
FULL_ADDR_NUMBER
=
ADDRESS_NUMBER
+
COLADDR_NUMBER
;
// excluding 3 CA lsb, but adding 3 bank
localparam
ROM_WIDTH
=
12
;
localparam
ROM_DEPTH
=
4
;
/*
localparam ENC_NOP= 0;
localparam ENC_BUF_WR= 1;
localparam ENC_DCI= 2;
localparam ENC_SEL= 3;
localparam ENC_CMD_SHIFT= 4; // [5:4] - command: 0 -= NOP, 1 - READ, 2 - PRECHARGE, 3 - ACTIVATE
localparam ENC_PAUSE_SHIFT=6; // [7:6] - 2- bit pause (for NOP commandes)
localparam ENC_PRE_DONE= 8;
localparam ENC_BUF_PGNEXT= 9;
localparam ENC_CMD_NOP= 0; // 2-bit locally encoded commands
localparam ENC_CMD_READ= 1;
// localparam ENC_CMD_PRECHARGE=2;
localparam ENC_CMD_ACTIVATE= 2; // using autoprecharge, so no PRECHARGE is needed. When en_act==0, ENC_CMD_ACTIVATE-> ENC_CMD_NOP (delay should be 0)
// localparam REPEAT_ADDR=3;
localparam LOOP_FIRST= 5; // address of the first word in a loop
localparam LOOP_LAST= 6; // address of the last word in a loop
localparam CMD_NOP= 0; // 3-bit normal memory RCW commands (positive logic)
localparam CMD_READ= 2;
// localparam CMD_PRECHARGE=5;
localparam CMD_ACTIVATE= 4;
*/
localparam
ENC_NOP
=
0
;
localparam
ENC_BUF_RD
=
1
;
localparam
ENC_DQS_TOGGLE
=
2
;
localparam
ENC_DQ_DQS_EN
=
3
;
localparam
ENC_SEL
=
4
;
localparam
ENC_ODT
=
5
;
localparam
ENC_CMD_SHIFT
=
6
;
// [7:6] - command: 0 -= NOP, 1 - WRITE, 2 - PRECHARGE, 3 - ACTIVATE
localparam
ENC_PAUSE_SHIFT
=
8
;
// [9:8] - 2- bit pause (for NOP commandes)
localparam
ENC_PRE_DONE
=
10
;
localparam
ENC_BUF_PGNEXT
=
11
;
localparam
ENC_CMD_NOP
=
0
;
// 2-bit locally encoded commands
localparam
ENC_CMD_WRITE
=
1
;
localparam
ENC_CMD_ACTIVATE
=
2
;
localparam
LOOP_FIRST
=
6
;
// address of the first word in a loop
localparam
LOOP_LAST
=
7
;
// address of the last word in a loop
localparam
CMD_NOP
=
0
;
// 3-bit normal memory RCW commands (positive logic)
localparam
CMD_WRITE
=
3
;
// localparam CMD_PRECHARGE=5;
localparam
CMD_ACTIVATE
=
4
;
// localparam AUTOPRECHARGE_BIT=COLADDR_NUMBER;
reg
[
ADDRESS_NUMBER
-
1
:
0
]
row
;
// memory row
reg
[
COLADDR_NUMBER
-
4
:
0
]
col
;
// start memory column in 8-bursts
reg
[
2
:
0
]
bank
;
// memory bank;
reg
[
5
:
0
]
num_rows_m1
;
// number of rows in a tile minus 1
reg
[
5
:
0
]
num_cols128_m1
;
// number of r16-byte columns in a tile -1
// reg [FULL_ADDR_NUMBER-4:0] rowcol_inc; // increment {row.col} when bank rolls over, remove 3 LSBs (in 8-bursts)
reg
[
FRAME_WIDTH_BITS
:
0
]
rowcol_inc
;
// increment {row.col} when bank rolls over, remove 3 LSBs (in 8-bursts)
reg
keep_open
;
reg
skip_next_page
;
reg
gen_run
;
reg
gen_run_d
;
// to output "done"?
reg
[
ROM_DEPTH
-
1
:
0
]
gen_addr
;
// will overrun as stop comes from ROM
reg
[
ROM_WIDTH
-
1
:
0
]
rom_r
;
wire
pre_done
;
wire
[
1
:
0
]
rom_cmd
;
wire
[
1
:
0
]
rom_skip
;
wire
[
2
:
0
]
full_cmd
;
reg
done
;
reg
[
FULL_ADDR_NUMBER
-
4
:
0
]
top_rc
;
// top combined row,column,bank burst address (excludes 3 CA LSBs), valid/modified @pre_act
reg
first_col
;
reg
last_col
;
wire
pre_act
;
//1 cycle before optional ACTIVATE
wire
pre_read
;
//1 cycle before READ command
reg
[
5
:
0
]
scan_row
;
// current row in a tile (valid @pre_act)
reg
[
5
:
0
]
scan_col
;
// current 16-byte column in a tile (valid @pre_act)
reg
start_d
;
// start, delayed by 1 clocks
wire
last_row
;
reg
[
FULL_ADDR_NUMBER
-
1
:
0
]
row_col_bank
;
// RA,CA, BA - valid @pre_act;
wire
[
COLADDR_NUMBER
-
1
:
0
]
col_bank
;
// CA, BA - valid @ pre_read;
wire
enable_act
;
reg
enable_autopre
;
wire
[
2
:
0
]
next_bank_w
;
wire
[
ADDRESS_NUMBER
+
COLADDR_NUMBER
-
4
:
0
]
next_rowcol_w
;
// next row/col when bank rolls over (in 8-bursts)
reg
loop_continue
;
wire
[
FULL_ADDR_NUMBER
-
1
:
0
]
row_col_bank_next_w
;
// RA,CA, BA - valid @pre_act;
reg
cut_buf_rd
;
always
@
(
posedge
clk
)
begin
// else if ((gen_addr==LOOP_LAST) && !loop_continue) gen_addr <= LOOP_FIRST; // skip loop alltogeter
if
(
!
gen_run
)
cut_buf_rd
<=
0
;
else
if
((
gen_addr
==
(
LOOP_LAST
-
1
))
&&
!
loop_continue
)
cut_buf_rd
<=
1
;
end
assign
row_col_bank_next_w
=
last_row
?
{
top_rc
,
bank
}:
// can not work if ACTIVATE is next after ACTIVATE in the last row (single-row tile)
(
&
row_col_bank
[
2
:
0
]
?
// bank==7
{
next_rowcol_w
,
3'b0
}:
{
row_col_bank
[
FULL_ADDR_NUMBER
-
1
:
3
]
,
next_bank_w
}
)
;
assign
pre_done
=
rom_r
[
ENC_PRE_DONE
]
&&
gen_run
;
assign
rom_cmd
=
rom_r
[
ENC_CMD_SHIFT
+:
2
]
;
// & {enable_act,1'b1}; // disable bit 1 if activate is disabled (not the first column)
assign
rom_skip
=
rom_r
[
ENC_PAUSE_SHIFT
+:
2
]
;
assign
full_cmd
=
(
enable_act
&&
rom_cmd
[
1
])
?
CMD_ACTIVATE
:
(
rom_cmd
[
0
]
?
CMD_WRITE
:
CMD_NOP
)
;
assign
last_row
=
(
scan_row
==
num_rows_m1
)
;
assign
enable_act
=
first_col
||
!
keep_open
;
// TODO: do not forget to zero addresses too (or they will become pause/done)
assign
next_bank_w
=
row_col_bank
[
2
:
0
]
+
1
;
//bank+1;
assign
next_rowcol_w
=
row_col_bank
[
FULL_ADDR_NUMBER
-
1
:
3
]
+
rowcol_inc
;
assign
pre_act
=
gen_run
&&
rom_cmd
[
1
]
;
//1 cycle before optional ACTIVATE
assign
pre_read
=
rom_r
[
ENC_CMD_SHIFT
]
;
//1 cycle before READ command
always
@
(
posedge
rst
or
posedge
clk
)
begin
if
(
rst
)
gen_run
<=
0
;
else
if
(
start_d
)
gen_run
<=
1
;
// delaying
else
if
(
pre_done
)
gen_run
<=
0
;
if
(
rst
)
gen_run_d
<=
0
;
else
gen_run_d
<=
gen_run
;
if
(
rst
)
num_rows_m1
<=
0
;
else
if
(
start
)
num_rows_m1
<=
num_rows_in_m1
;
// number of rows
if
(
rst
)
num_cols128_m1
<=
0
;
else
if
(
start
)
num_cols128_m1
<=
num_cols_in_m1
;
// number of r16-byte columns
if
(
rst
)
start_d
<=
0
;
else
start_d
<=
start
;
if
(
rst
)
top_rc
<=
0
;
else
if
(
start_d
)
top_rc
<=
{
row
,
col
}+
1
;
else
if
(
pre_act
&&
last_row
)
top_rc
<=
top_rc
+
1
;
// may increment RA
if
(
rst
)
row_col_bank
<=
0
;
else
if
(
start_d
)
row_col_bank
<=
{
row
,
col
,
bank
};
// TODO: Use start_col,... and start, not start_d?
else
if
(
pre_act
)
row_col_bank
<=
row_col_bank_next_w
;
if
(
rst
)
scan_row
<=
0
;
else
if
(
start_d
)
scan_row
<=
0
;
else
if
(
pre_act
)
scan_row
<=
last_row
?
0
:
scan_row
+
1
;
if
(
rst
)
scan_col
<=
0
;
else
if
(
start_d
)
scan_col
<=
0
;
else
if
(
pre_act
&&
last_row
)
scan_col
<=
scan_col
+
1
;
// for ACTIVATE, not for READ
if
(
rst
)
first_col
<=
0
;
else
if
(
start_d
)
first_col
<=
1
;
else
if
(
pre_act
&&
last_row
)
first_col
<=
0
;
if
(
rst
)
last_col
<=
0
;
else
if
(
start_d
)
last_col
<=
num_cols128_m1
==
0
;
// if single column - will start with 1'b1;
else
if
(
pre_act
)
last_col
<=
(
scan_col
==
num_cols128_m1
)
;
// too early for READ ?
if
(
rst
)
enable_autopre
<=
0
;
else
if
(
start_d
)
enable_autopre
<=
0
;
else
if
(
pre_act
)
enable_autopre
<=
last_col
||
!
keep_open
;
// delayed by 2 pre_act tacts form last_col, OK with a single column
if
(
rst
)
loop_continue
<=
0
;
else
loop_continue
<=
(
scan_col
==
num_cols128_m1
)
&&
last_row
;
if
(
rst
)
gen_addr
<=
0
;
else
if
(
!
start_d
&&
!
gen_run
)
gen_addr
<=
0
;
else
if
((
gen_addr
==
LOOP_LAST
)
&&
!
loop_continue
)
gen_addr
<=
LOOP_FIRST
;
// skip loop alltogeter
else
gen_addr
<=
gen_addr
+
1
;
// not in a loop
end
always
@
(
posedge
clk
)
if
(
start
)
begin
row
<=
start_row
;
col
<=
start_col
;
bank
<=
start_bank
;
rowcol_inc
<=
rowcol_inc_in
;
keep_open
<=
keep_open_in
&&
(
|
num_cols_in_m1
[
5
:
3
]
==
0
)
;
skip_next_page
<=
skip_next_page_in
;
end
// ROM-based (registered output) encoded sequence
always
@
(
posedge
rst
or
posedge
clk
)
begin
if
(
rst
)
rom_r
<=
0
;
else
case
(
gen_addr
)
4'h0
:
rom_r
<=
(
ENC_CMD_ACTIVATE
<<
ENC_CMD_SHIFT
)
;
// here does not matter, just to work with masked ACTIVATE
4'h1
:
rom_r
<=
(
ENC_CMD_NOP
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
;
4'h2
:
rom_r
<=
(
ENC_CMD_ACTIVATE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
;
4'h3
:
rom_r
<=
(
ENC_CMD_WRITE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
;
4'h4
:
rom_r
<=
(
ENC_CMD_ACTIVATE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
;
4'h5
:
rom_r
<=
(
ENC_CMD_WRITE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'h6
:
rom_r
<=
(
ENC_CMD_ACTIVATE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'h7
:
rom_r
<=
(
ENC_CMD_WRITE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'h8
:
rom_r
<=
(
ENC_CMD_NOP
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'h9
:
rom_r
<=
(
ENC_CMD_WRITE
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_BUF_PGNEXT
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'ha
:
rom_r
<=
(
ENC_CMD_NOP
<<
ENC_CMD_SHIFT
)
|
(
3
<<
ENC_PAUSE_SHIFT
)
|
(
1
<<
ENC_BUF_RD
)
|
(
1
<<
ENC_SEL
)
|
(
1
<<
ENC_ODT
)
|
(
1
<<
ENC_DQ_DQS_EN
)
|
(
1
<<
ENC_DQS_TOGGLE
)
;
4'hb
:
rom_r
<=
(
ENC_CMD_NOP
<<
ENC_CMD_SHIFT
)
|
(
3
<<
ENC_PAUSE_SHIFT
)
;
4'hc
:
rom_r
<=
(
ENC_CMD_NOP
<<
ENC_CMD_SHIFT
)
|
(
1
<<
ENC_PRE_DONE
)
;
default:
rom_r
<=
0
;
endcase
end
always
@
(
posedge
rst
or
posedge
clk
)
begin
if
(
rst
)
done
<=
0
;
else
done
<=
pre_done
;
if
(
rst
)
enc_wr
<=
0
;
else
enc_wr
<=
gen_run
||
gen_run_d
;
if
(
rst
)
enc_done
<=
0
;
else
enc_done
<=
enc_wr
&&
!
gen_run_d
;
if
(
rst
)
enc_cmd
<=
0
;
// else if ((rom_cmd==0) || (rom_cmd[1] && !enable_act)) enc_cmd <= func_encode_skip ( // encode pause
else
if
(
rom_cmd
[
0
]
||
(
rom_cmd
[
1
]
&&
enable_act
))
enc_cmd
<=
func_encode_cmd
(
// encode non-NOP command
rom_cmd
[
1
]
?
// activate
row_col_bank
[
FULL_ADDR_NUMBER
-
1
:
COLADDR_NUMBER
]
:
// top combined row,column,bank burst address (excludes 3 CA LSBs), valid/modified @pre_act
{{
ADDRESS_NUMBER
-
COLADDR_NUMBER
-
1
{
1'b0
}},
enable_autopre
,
col_bank
[
COLADDR_NUMBER
-
1
:
3
]
,
3'b0
},
// [14:0] addr; // 15-bit row/column adderss
rom_cmd
[
1
]
?
row_col_bank
[
2
:
0
]
:
col_bank
[
2
:
0
]
,
//
full_cmd
[
2
:
0
]
,
// rcw; // RAS/CAS/WE, positive logic
rom_r
[
ENC_ODT
]
,
// odt_en; // enable ODT
1'b0
,
// cke; // disable CKE
rom_r
[
ENC_SEL
]
,
// sel; // first/second half-cycle, other will be nop (cke+odt applicable to both)
rom_r
[
ENC_DQ_DQS_EN
]
,
// dq_en; // enable (not tristate) DQ lines (internal timing sequencer for 0->1 and 1->0)
rom_r
[
ENC_DQ_DQS_EN
]
,
// dqs_en; // enable (not tristate) DQS lines (internal timing sequencer for 0->1 and 1->0)
rom_r
[
ENC_DQS_TOGGLE
]
,
// dqs_toggle; // enable toggle DQS according to the pattern
1'b0
,
// dci; // DCI disable, both DQ and DQS lines (internal logic and timing sequencer for 0->1 and 1->0)
1'b0
,
// buf_wr; // connect to external buffer (but only if not paused)
rom_r
[
ENC_BUF_RD
]
&&
!
cut_buf_rd
,
// buf_rd; // connect to external buffer (but only if not paused)
rom_r
[
ENC_NOP
]
,
// nop; // add NOP after the current command, keep other data
rom_r
[
ENC_BUF_PGNEXT
]
&&
!
skip_next_page
)
;
// buf_rst; // connect to external buffer (but only if not paused)
else
enc_cmd
<=
func_encode_skip
(
// encode pause
{{
CMD_PAUSE_BITS
-
2
{
1'b0
}},
rom_skip
[
1
:
0
]
},
// skip; // number of extra cycles to skip (and keep all the other outputs)
done
,
// end of sequence
3'b0
,
// bank (here OK to be any)
rom_r
[
ENC_ODT
]
,
// odt_en; // enable ODT
1'b0
,
// cke; // disable CKE
rom_r
[
ENC_SEL
]
,
// sel; // first/second half-cycle, other will be nop (cke+odt applicable to both)
rom_r
[
ENC_DQ_DQS_EN
]
,
// dq_en; // enable (not tristate) DQ lines (internal timing sequencer for 0->1 and 1->0)
rom_r
[
ENC_DQ_DQS_EN
]
,
// dqs_en; // enable (not tristate) DQS lines (internal timing sequencer for 0->1 and 1->0)
rom_r
[
ENC_DQS_TOGGLE
]
,
// dqs_toggle; // enable toggle DQS according to the pattern
1'b0
,
// dci; // DCI disable, both DQ and DQS lines (internal logic and timing sequencer for 0->1 and 1->0)
1'b0
,
// buf_wr; // connect to external buffer (but only if not paused)
rom_r
[
ENC_BUF_RD
]
&&
!
cut_buf_rd
,
// buf_rd; // connect to external buffer (but only if not paused)
rom_r
[
ENC_BUF_PGNEXT
]
&&
!
skip_next_page
)
;
// buf_rst; // connect to external buffer (but only if not paused)
end
fifo_2regs
#(
.
WIDTH
(
COLADDR_NUMBER
)
)
fifo_2regs_i
(
.
rst
(
rst
)
,
// input
.
clk
(
clk
)
,
// input
.
din
(
row_col_bank
[
COLADDR_NUMBER
-
1
:
0
])
,
// input[15:0]
.
wr
(
pre_act
)
,
// input
.
rd
(
pre_read
)
,
// input
.
srst
(
start_d
)
,
// input
.
dout
(
col_bank
)
// output[15:0]
)
;
`include
"includes/x393_mcontr_encode_cmd.vh"
endmodule
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