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Elphel
x393
Commits
2aa6f1d2
Commit
2aa6f1d2
authored
Apr 29, 2014
by
Andrey Filippov
Browse files
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parent
ea560b4a
Changes
3
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3 changed files
with
275 additions
and
61 deletions
+275
-61
byte_lane.v
phy/byte_lane.v
+3
-3
cmd_addr.v
phy/cmd_addr.v
+259
-0
cmda_single.v
phy/cmda_single.v
+13
-58
No files found.
phy/byte_lane.v
View file @
2aa6f1d2
...
@@ -2,7 +2,7 @@
...
@@ -2,7 +2,7 @@
* Module: byte_lane
* Module: byte_lane
* Date:2014-04-26
* Date:2014-04-26
* Author: Andrey Filippov
* Author: Andrey Filippov
* Description: DDR3 byte lane, in
g
luding DQS I/O, 8xDQ I/O and DM output
* Description: DDR3 byte lane, in
c
luding DQS I/O, 8xDQ I/O and DM output
*
*
* Copyright (c) 2014 Elphel, Inc.
* Copyright (c) 2014 Elphel, Inc.
* byte_lane.v is free software; you can redistribute it and/or modify
* byte_lane.v is free software; you can redistribute it and/or modify
...
@@ -44,7 +44,7 @@ module byte_lane #(
...
@@ -44,7 +44,7 @@ module byte_lane #(
input
[
3
:
0
]
tin_dq
,
// tristate for data out (sent out earlier than data!) and dm
input
[
3
:
0
]
tin_dq
,
// tristate for data out (sent out earlier than data!) and dm
input
[
3
:
0
]
din_dqs
,
// parallel data to be sent out over DQS
input
[
3
:
0
]
din_dqs
,
// parallel data to be sent out over DQS
input
[
3
:
0
]
tin_dqs
,
// tristate for DQS out (sent out earlier than data!)
input
[
3
:
0
]
tin_dqs
,
// tristate for DQS out (sent out earlier than data!)
output
[
31
:
0
]
dout
,
// parallel data received from DDR3 memory, 4 bits per D
G
I/O
output
[
31
:
0
]
dout
,
// parallel data received from DDR3 memory, 4 bits per D
Q
I/O
input
[
7
:
0
]
dly_data
,
// delay value (3 LSB - fine delay)
input
[
7
:
0
]
dly_data
,
// delay value (3 LSB - fine delay)
input
[
4
:
0
]
dly_addr
,
// select which delay to program
input
[
4
:
0
]
dly_addr
,
// select which delay to program
input
ld_delay
,
// load delay data to selected iodelayl (clk_iv synchronous)
input
ld_delay
,
// load delay data to selected iodelayl (clk_iv synchronous)
...
@@ -91,7 +91,7 @@ end
...
@@ -91,7 +91,7 @@ end
generate
generate
genvar
i
;
genvar
i
;
for
(
i
=
0
;
i
<
7
;
i
=
i
+
1
)
begin
:
dq_block
for
(
i
=
0
;
i
<
8
;
i
=
i
+
1
)
begin
:
dq_block
dq_single
#(
dq_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IBUF_LOW_PWR
(
IBUF_LOW_PWR
)
,
.
IBUF_LOW_PWR
(
IBUF_LOW_PWR
)
,
...
...
phy/cmd_addr.v
0 → 100644
View file @
2aa6f1d2
/*******************************************************************************
* Module: cmd_addr
* Date:2014-04-26
* Author: Andrey Filippov
* Description: DDR3 command/address signals
*
* Copyright (c) 2014 Elphel, Inc.
* cmd_addr.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_addr.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
module
cmd_addr
#(
parameter
IODELAY_GRP
=
"IODELAY_MEMORY"
,
parameter
IOSTANDARD
=
"SSTL15"
,
parameter
SLEW
=
"SLOW"
,
parameter
real
REFCLK_FREQUENCY
=
300.0
,
parameter
HIGH_PERFORMANCE_MODE
=
"FALSE"
,
parameter
ADDRESS_NUMBER
=
15
)(
output
[
ADDRESS_NUMBER
-
1
:
0
]
ddr3_a
,
// output address ports (14:0) for 4Gb device
output
[
2
:
0
]
ddr3_ba
,
// output bank address ports
output
ddr3_we
,
// output WE port
output
ddr3_ras
,
// output RAS port
output
ddr3_cas
,
// output CAS port
output
ddr3_cke
,
// output Clock Enable port
output
ddr3_odt
,
// output ODT port
input
clk
,
// free-running system clock, same frequency as iclk (shared for R/W)
input
clk_div
,
// free-running half clk frequency, front aligned to clk (shared for R/W)
input
rst
,
// reset delays/serdes
input
[
2
*
ADDRESS_NUMBER
-
1
:
0
]
in_a
,
// input address, 2 bits per signal (first, second) (29:0) for 4Gb device
input
[
5
:
0
]
in_ba
,
// input bank address, 2 bits per signal (first, second)
input
[
1
:
0
]
in_we
,
// input WE, 2 bits (first, second)
input
[
1
:
0
]
in_ras
,
// input RAS, 2 bits (first, second)
input
[
1
:
0
]
in_cas
,
// input CAS, 2 bits (first, second)
input
[
1
:
0
]
in_cke
,
// input CKE, 2 bits (first, second)
input
[
1
:
0
]
in_odt
,
// input ODT, 2 bits (first, second)
input
[
1
:
0
]
in_tri
,
// tristate command/address outputs - same timing, but no odelay
input
[
7
:
0
]
dly_data
,
// delay value (3 LSB - fine delay)
input
[
4
:
0
]
dly_addr
,
// select which delay to program
input
ld_delay
,
// load delay data to selected iodelayl (clk_iv synchronous)
input
set
// clk_div synchronous set all delays from previously loaded values
)
;
reg
[
2
*
ADDRESS_NUMBER
-
1
:
0
]
in_a_r
=
0
;
reg
[
5
:
0
]
in_ba_r
=
0
;
reg
[
1
:
0
]
in_we_r
=
2'h3
,
in_ras_r
=
2'h3
,
in_cas_r
=
2'h3
,
in_cke_r
=
2'h3
,
in_odt_r
=
2'h0
;
reg
[
1
:
0
]
in_tri_r
=
2'h0
;
// or tri-state on reset?
reg
[
7
:
0
]
dly_data_r
=
0
;
reg
set_r
=
0
;
reg
[
7
:
0
]
ld_dly_cmd
=
8'b0
;
reg
[
ADDRESS_NUMBER
-
1
:
0
]
ld_dly_addr
=
0
;
wire
[
ADDRESS_NUMBER
-
1
:
0
]
decode_addr
;
wire
[
7
:
0
]
decode_sel
={
(
dly_addr
[
2
:
0
]
==
7
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
6
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
5
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
4
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
3
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
2
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
1
)
?
1'b1
:
1'b0
,
(
dly_addr
[
2
:
0
]
==
0
)
?
1'b1
:
1'b0
};
always
@
(
posedge
clk_div
or
posedge
rst
)
begin
if
(
rst
)
begin
in_a_r
<=
0
;
in_ba_r
<=
6'b0
;
in_we_r
<=
2'h3
;
in_ras_r
<=
2'h3
;
in_cas_r
<=
2'h3
;
in_cke_r
<=
2'h3
;
in_odt_r
<=
2'h0
;
in_tri_r
<=
2'h0
;
// or tri-state on reset?
dly_data_r
<=
8'b0
;
set_r
<=
1'b0
;
ld_dly_cmd
<=
8'b0
;
ld_dly_addr
<=
0
;
end
else
begin
in_a_r
<=
in_a
;
in_ba_r
<=
in_ba
;
in_we_r
<=
in_we
;
in_ras_r
<=
in_ras
;
in_cas_r
<=
in_cas
;
in_cke_r
<=
in_cke
;
in_odt_r
<=
in_odt
;
in_tri_r
<=
in_tri
;
dly_data_r
<=
dly_data
;
set_r
<=
set
;
ld_dly_cmd
<=
{
8
{
dly_addr
[
4
]
&
dly_addr
[
3
]
&
ld_delay
}}
&
decode_sel
[
7
:
0
]
;
ld_dly_addr
<=
{
(
ADDRESS_NUMBER
-
1
)
{
ld_delay
}}
&
decode_addr
;
end
end
// All addresses
generate
genvar
i
;
for
(
i
=
0
;
i
<
ADDRESS_NUMBER
;
i
=
i
+
1
)
begin
:
addr_block
assign
decode_addr
[
i
]
=
(
ld_dly_addr
[
4
:
0
]
==
i
)
?
1'b1
:
1'b0
;
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_addr_i
(
.
dq
(
ddr3_a
)
,
// I/O pad (appears on the output 1/2 clk_div earlier, than DDR data)
.
clk
(
clk
)
,
// free-running system clock, same frequency as iclk (shared for R/W)
.
clk_div
(
clk_div
)
,
// free-running half clk frequency, front aligned to clk (shared for R/W)
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
// delay value (3 LSB - fine delay)
.
din
(
in_a_r
[
2
*
i
+
1
:
2
*
i
])
,
// parallel data to be sent out
.
tin
(
in_tri_r
[
1
:
0
])
,
// tristate for data out (sent out earlier than data!)
.
set_delay
(
set_r
)
,
// clk_div synchronous load odelay value from dly_data
.
ld_delay
(
ld_dly_addr
[
i
])
// clk_div synchronous set odealy value from loaded
)
;
end
endgenerate
// Bank addresses
// ba0
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_ba0_i
(
.
dq
(
ddr3_ba
[
0
])
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_ba_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
0
]))
;
// ba1
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_ba1_i
(
.
dq
(
ddr3_ba
[
1
])
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_ba_r
[
3
:
2
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
1
]))
;
// ba2
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_ba2_i
(
.
dq
(
ddr3_ba
[
2
])
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_ba_r
[
5
:
4
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
2
]))
;
// we
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_we_i
(
.
dq
(
ddr3_we
)
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_we_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
3
]))
;
// ras
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_ras_i
(
.
dq
(
ddr3_ras
)
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_ras_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
4
]))
;
// cas
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_cas_i
(
.
dq
(
ddr3_cas
)
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_cas_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
5
]))
;
// cke
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_cke_i
(
.
dq
(
ddr3_cke
)
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_cke_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
6
]))
;
// odt
cmda_single
#(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
cmda_odt_i
(
.
dq
(
ddr3_odt
)
,
.
clk
(
clk
)
,
.
clk_div
(
clk_div
)
,
.
rst
(
rst
)
,
.
dly_data
(
dly_data_r
[
7
:
0
])
,
.
din
(
in_odt_r
[
1
:
0
])
,
.
tin
(
in_tri_r
[
1
:
0
])
,
.
set_delay
(
set_r
)
,
.
ld_delay
(
ld_dly_cmd
[
7
]))
;
endmodule
phy/cmda_single.v
View file @
2aa6f1d2
...
@@ -22,36 +22,24 @@
...
@@ -22,36 +22,24 @@
module
cmda_single
#(
module
cmda_single
#(
parameter
IODELAY_GRP
=
"IODELAY_MEMORY"
,
parameter
IODELAY_GRP
=
"IODELAY_MEMORY"
,
parameter
IBUF_LOW_PWR
=
"TRUE"
,
parameter
IOSTANDARD
=
"SSTL15"
,
parameter
IOSTANDARD
=
"SSTL15"
,
parameter
SLEW
=
"SLOW"
,
parameter
SLEW
=
"SLOW"
,
parameter
real
REFCLK_FREQUENCY
=
300.0
,
parameter
real
REFCLK_FREQUENCY
=
300.0
,
parameter
HIGH_PERFORMANCE_MODE
=
"FALSE"
parameter
HIGH_PERFORMANCE_MODE
=
"FALSE"
)(
)(
inout
dq
,
// I/O pad
output
dq
,
// I/O pad (appears on the output 1/2 clk_div earlier, than DDR data)
input
iclk
,
// source-synchronous clock (BUFR from DQS)
input
clk
,
// free-running system clock, same frequency as iclk (shared for R/W)
input
clk
,
// free-running system clock, same frequency as iclk (shared for R/W)
input
clk_div
,
// free-running half clk frequency, front aligned to clk (shared for R/W)
input
clk_div
,
// free-running half clk frequency, front aligned to clk (shared for R/W)
input
inv_clk_div
,
// invert clk_div for R channel (clk_div is shared between R and W)
input
rst
,
input
rst
,
input
dci_disable
,
// disable DCI termination during writes and idle
input
[
7
:
0
]
dly_data
,
// delay value (3 LSB - fine delay)
input
[
7
:
0
]
dly_data
,
// delay value (3 LSB - fine delay)
input
[
3
:
0
]
din
,
// parallel data to be sent out
input
[
1
:
0
]
din
,
// parallel data to be sent out
input
[
3
:
0
]
tin
,
// tristate for data out (sent out earlier than data!)
input
[
1
:
0
]
tin
,
// tristate for data out (sent out earlier than data!)
output
[
3
:
0
]
dout
,
// parallel data received from DDR3 memory
input
set_delay
,
// clk_div synchronous load odelay value from dly_data
input
set_odelay
,
// clk_div synchronous load odelay value from dly_data
input
ld_delay
// clk_div synchronous set odealy value from loaded
input
ld_odelay
,
// clk_div synchronous set odealy value from loaded
input
set_idelay
,
// clk_div synchronous load idelay value from dly_data
input
ld_idelay
// clk_div synchronous set idealy value from loaded
)
;
)
;
wire
d_ser
;
wire
d_ser
;
wire
dq_tri
;
wire
dq_tri
;
wire
dq_data_dly
;
wire
dq_data_dly
;
wire
dq_dly
;
// keep IOBUF_DCIEN.O to user as output only (UDM/LDM), so the rest of tyhe read channel will be optimized out, but I/O will stay the same
(
*
keep
=
"true"
*
)
wire
dq_di
;
oserdes_mem
#(
oserdes_mem
#(
.
MODE_DDR
(
"FALSE"
)
.
MODE_DDR
(
"FALSE"
)
...
@@ -59,8 +47,8 @@ oserdes_mem#(
...
@@ -59,8 +47,8 @@ oserdes_mem#(
.
clk
(
clk
)
,
// serial output clock
.
clk
(
clk
)
,
// serial output clock
.
clk_div
(
clk_div
)
,
// oclk divided by 2, front aligned
.
clk_div
(
clk_div
)
,
// oclk divided by 2, front aligned
.
rst
(
rst
)
,
// reset
.
rst
(
rst
)
,
// reset
.
din
(
din
[
3
:
0
])
,
// parallel data in
.
din
(
din
[
1
:
0
])
,
// parallel data in
.
tin
(
tin
[
3
:
0
])
,
// parallel tri-state in
.
tin
(
tin
[
1
:
0
])
,
// parallel tri-state in
.
dout_dly
(
d_ser
)
,
// data out to be connected to odelay input
.
dout_dly
(
d_ser
)
,
// data out to be connected to odelay input
.
dout_iob
()
,
// data out to be connected directly to the output buffer
.
dout_iob
()
,
// data out to be connected directly to the output buffer
.
tout_dly
()
,
// tristate out to be connected to odelay input
.
tout_dly
()
,
// tristate out to be connected to odelay input
...
@@ -74,53 +62,20 @@ odelay_fine_pipe # (
...
@@ -74,53 +62,20 @@ odelay_fine_pipe # (
)
dqs_out_dly_i
(
)
dqs_out_dly_i
(
.
clk
(
clk_div
)
,
.
clk
(
clk_div
)
,
.
rst
(
rst
)
,
.
rst
(
rst
)
,
.
set
(
set_
o
delay
)
,
.
set
(
set_delay
)
,
.
ld
(
ld_
o
delay
)
,
.
ld
(
ld_delay
)
,
.
delay
(
dly_data
[
7
:
0
])
,
.
delay
(
dly_data
[
7
:
0
])
,
.
data_in
(
d_ser
)
,
.
data_in
(
d_ser
)
,
.
data_out
(
dq_data_dly
)
.
data_out
(
dq_data_dly
)
)
;
)
;
IOBUF_DCIEN
#(
OBUFT
#(
.
IBUF_LOW_PWR
(
IBUF_LOW_PWR
)
,
//
.
IOSTANDARD
(
IOSTANDARD
)
,
.
IOSTANDARD
(
IOSTANDARD
)
,
.
SLEW
(
SLEW
)
,
.
SLEW
(
SLEW
)
.
USE_IBUFDISABLE
(
"FALSE"
)
)
iobufs_dqs_i
(
)
iobufs_dqs_i
(
.
O
(
dq_di
)
,
.
O
(
dq
)
,
.
IO
(
dq
)
,
.
I
(
dq_data_dly
)
,
.
DCITERMDISABLE
(
dci_disable
)
,
.
IBUFDISABLE
(
1'b0
)
,
.
I
(
dq_data_dly
)
,
//dqs_data),
.
T
(
dq_tri
))
;
.
T
(
dq_tri
))
;
idelay_fine_pipe
#
(
.
IODELAY_GRP
(
IODELAY_GRP
)
,
.
DELAY_VALUE
(
0
)
,
.
REFCLK_FREQUENCY
(
REFCLK_FREQUENCY
)
,
.
HIGH_PERFORMANCE_MODE
(
HIGH_PERFORMANCE_MODE
)
)
dqs_in_dly_i
(
.
clk
(
clk_div
)
,
.
rst
(
rst
)
,
.
set
(
set_idelay
)
,
.
ld
(
ld_idelay
)
,
.
delay
(
dly_data
[
7
:
0
])
,
.
data_in
(
dq_di
)
,
.
data_out
(
dq_dly
)
)
;
iserdes_mem
#(
.
DYN_CLKDIV_INV_EN
(
"FALSE"
)
)
iserdes_mem_i
(
.
iclk
(
iclk
)
,
// source-synchronous clock
.
oclk
(
clk
)
,
// system clock, phase should allow iclk-to-oclk jitter with setup/hold margin
.
oclk_div
(
clk_div
)
,
// oclk divided by 2, front aligned
.
inv_clk_div
(
inv_clk_div
)
,
// invert oclk_div (this clock is shared between iserdes and oserdes. Works only in MEMORY_DDR3 mode?
.
rst
(
rst
)
,
// reset
.
d_direct
(
1'b0
)
,
// direct input from IOB, normally not used, controlled by IOBDELAY parameter (set to "NONE")
.
ddly
(
dq_dly
)
,
// serial input from idelay
.
dout
(
dout
[
3
:
0
])
// parallel data out
)
;
endmodule
endmodule
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