Skip to content
GitLab
Explore
Sign in
Primary navigation
Search or go to…
Project
H
HDL
Manage
Activity
Members
Labels
Plan
Issues
Issue boards
Milestones
Iterations
Wiki
Requirements
Jira
Code
Merge requests
Repository
Branches
Commits
Tags
Repository graph
Compare revisions
Snippets
Locked files
Build
Pipelines
Jobs
Pipeline schedules
Test cases
Artifacts
Deploy
Releases
Container registry
Model registry
Operate
Environments
Monitor
Incidents
Analyze
Value stream analytics
Contributor analytics
CI/CD analytics
Repository analytics
Code review analytics
Issue analytics
Insights
Model experiments
Help
Help
Support
GitLab documentation
Compare GitLab plans
Community forum
Contribute to GitLab
Provide feedback
Keyboard shortcuts
?
Snippets
Groups
Projects
Show more breadcrumbs
RTSD
HDL
Commits
bda8cd50
Commit
bda8cd50
authored
10 years ago
by
Eric Kooistra
Browse files
Options
Downloads
Patches
Plain Diff
Support using block of 24 transceivers IP when g_nof_channels=24.
parent
30aa87f1
No related branches found
No related tags found
No related merge requests found
Changes
1
Hide whitespace changes
Inline
Side-by-side
Showing
1 changed file
libraries/technology/10gbase_r/tech_10gbase_r_arria10.vhd
+176
-74
176 additions, 74 deletions
libraries/technology/10gbase_r/tech_10gbase_r_arria10.vhd
with
176 additions
and
74 deletions
libraries/technology/10gbase_r/tech_10gbase_r_arria10.vhd
+
176
−
74
View file @
bda8cd50
...
...
@@ -22,8 +22,10 @@
-- Declare IP libraries to ensure default binding in simulation. The IP library clause is ignored by synthesis.
LIBRARY
ip_arria10_phy_10gbase_r_altera_xcvr_native_a10_141
;
LIBRARY
ip_arria10_phy_10gbase_r_24_altera_xcvr_native_a10_141
;
LIBRARY
ip_arria10_transceiver_pll_10g_altera_xcvr_atx_pll_a10_141
;
LIBRARY
ip_arria10_transceiver_reset_controller_1_altera_xcvr_reset_control_141
;
LIBRARY
ip_arria10_transceiver_reset_controller_24_altera_xcvr_reset_control_141
;
LIBRARY
IEEE
,
tech_pll_lib
,
common_lib
;
USE
IEEE
.
STD_LOGIC_1164
.
ALL
;
...
...
@@ -34,8 +36,8 @@ USE work.tech_10gbase_r_component_pkg.ALL;
ENTITY
tech_10gbase_r_arria10
IS
GENERIC
(
g_sim
:
BOOLEAN
:
=
FALSE
;
g_nof_channels
:
NATURAL
:
=
1
g_sim
:
BOOLEAN
:
=
FALSE
;
g_nof_channels
:
NATURAL
:
=
1
);
PORT
(
-- Transceiver ATX PLL reference clock
...
...
@@ -60,6 +62,12 @@ END tech_10gbase_r_arria10;
ARCHITECTURE
str
OF
tech_10gbase_r_arria10
IS
CONSTANT
c_nof_channels_per_ip
:
NATURAL
:
=
sel_a_b
(
g_nof_channels
=
24
,
24
,
1
);
-- only support single 1 or block of 24
CONSTANT
IP_SIZE
:
NATURAL
:
=
c_nof_channels_per_ip
;
-- short constant name alias to improve index readability
CONSTANT
IP_SIZE_DATA
:
NATURAL
:
=
IP_SIZE
*
c_xgmii_data_w
;
CONSTANT
IP_SIZE_CONTROL
:
NATURAL
:
=
IP_SIZE
*
c_xgmii_nof_lanes
;
SIGNAL
tx_serial_clk
:
STD_LOGIC_VECTOR
(
0
DOWNTO
0
);
SIGNAL
tr_coreclkin
:
STD_LOGIC_VECTOR
(
0
DOWNTO
0
);
...
...
@@ -69,20 +77,28 @@ ARCHITECTURE str OF tech_10gbase_r_arria10 IS
SIGNAL
tx_control_arr
:
t_xgmii_c_arr
(
g_nof_channels
-1
DOWNTO
0
);
-- 8 bit
SIGNAL
rx_control_arr
:
t_xgmii_c_arr
(
g_nof_channels
-1
DOWNTO
0
);
-- 8 bit
-- IP block SLV signals
SIGNAL
tx_serial_clk_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
tr_coreclkin_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
tx_parallel_data_arr_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
*
c_xgmii_data_w
-1
DOWNTO
0
);
-- 64 bit
SIGNAL
rx_parallel_data_arr_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
*
c_xgmii_data_w
-1
DOWNTO
0
);
-- 64 bit
SIGNAL
tx_control_arr_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
*
c_xgmii_nof_lanes
-1
DOWNTO
0
);
-- 8 bit
SIGNAL
rx_control_arr_slv
:
STD_LOGIC_VECTOR
(
g_nof_channels
*
c_xgmii_nof_lanes
-1
DOWNTO
0
);
-- 8 bit
-- transceiver reset controller
SIGNAL
tx_analogreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
tx_digitalreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
rx_analogreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
rx_digitalreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
tx_cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
rx_cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
rx_is_lockedtodata_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
tx_analogreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'1'
)
;
SIGNAL
tx_digitalreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'1'
)
;
SIGNAL
rx_analogreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'1'
)
;
SIGNAL
rx_digitalreset_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'1'
)
;
SIGNAL
tx_cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
)
;
SIGNAL
rx_cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
)
;
SIGNAL
rx_is_lockedtodata_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
)
;
SIGNAL
cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
cal_busy_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
)
;
-- transceiver ATX PLL for 10G
SIGNAL
atx_pll_powerdown
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
;
-- only use reset controller 0 for ATX PLL power down
SIGNAL
atx_pll_locked_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
);
SIGNAL
atx_pll_powerdown
_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
);
SIGNAL
atx_pll_locked_arr
:
STD_LOGIC_VECTOR
(
g_nof_channels
-1
DOWNTO
0
)
:
=
(
OTHERS
=>
'0'
)
;
SIGNAL
atx_pll_locked
:
STD_LOGIC
;
SIGNAL
atx_pll_cal_busy
:
STD_LOGIC
;
...
...
@@ -91,7 +107,7 @@ BEGIN
-- Clocks
tr_coreclkin
(
0
)
<=
clk_156
;
gen_
phy
:
FOR
I
IN
0
TO
g_nof_channels
-1
GENERATE
gen_
glue_logic
:
FOR
I
IN
0
TO
g_nof_channels
-1
GENERATE
-- Reset controller
cal_busy_arr
(
I
)
<=
tx_cal_busy_arr
(
I
)
OR
atx_pll_cal_busy
;
...
...
@@ -108,76 +124,162 @@ BEGIN
tx_control_arr
(
I
)
<=
func_xgmii_c
(
xgmii_tx_dc_arr
(
I
));
xgmii_rx_dc_arr
(
I
)
<=
func_xgmii_dc
(
rx_parallel_data_arr
(
I
),
rx_control_arr
(
I
));
END
GENERATE
;
u_ip_arria10_phy_10gbase_r
:
ip_arria10_phy_10gbase_r
PORT
MAP
(
tx_analogreset
=>
tx_analogreset_arr
(
I
DOWNTO
I
),
tx_digitalreset
=>
tx_digitalreset_arr
(
I
DOWNTO
I
),
rx_analogreset
=>
rx_analogreset_arr
(
I
DOWNTO
I
),
rx_digitalreset
=>
rx_digitalreset_arr
(
I
DOWNTO
I
),
tx_cal_busy
=>
tx_cal_busy_arr
(
I
DOWNTO
I
),
rx_cal_busy
=>
rx_cal_busy_arr
(
I
DOWNTO
I
),
tx_serial_clk0
=>
tx_serial_clk
,
rx_cdr_refclk0
=>
tr_ref_clk_644
,
tx_serial_data
=>
tx_serial_arr
(
I
DOWNTO
I
),
rx_serial_data
=>
rx_serial_arr
(
I
DOWNTO
I
),
rx_is_lockedtoref
=>
OPEN
,
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
I
DOWNTO
I
),
tx_coreclkin
=>
tr_coreclkin
,
-- 156.25 MHz
rx_coreclkin
=>
tr_coreclkin
,
-- 156.25 MHz
tx_parallel_data
=>
tx_parallel_data_arr
(
I
),
rx_parallel_data
=>
rx_parallel_data_arr
(
I
),
tx_control
=>
tx_control_arr
(
I
),
--tx_err_ins : in std_logic := '0'; -- tx_err_ins.tx_err_ins
--unused_tx_parallel_data : in std_logic_vector(63 downto 0) := (others => '0'); -- unused_tx_parallel_data.unused_tx_parallel_data
--unused_tx_control : in std_logic_vector(8 downto 0) := (others => '0'); -- unused_tx_control.unused_tx_control
rx_control
=>
rx_control_arr
(
I
)
--unused_rx_parallel_data : out std_logic_vector(63 downto 0); -- unused_rx_parallel_data.unused_rx_parallel_data
--unused_rx_control : out std_logic_vector(11 downto 0); -- unused_rx_control.unused_rx_control
--tx_enh_data_valid : in std_logic_vector(0 downto 0) := (others => '0'); -- tx_enh_data_valid.tx_enh_data_valid
--tx_enh_fifo_full : out std_logic_vector(0 downto 0); -- tx_enh_fifo_full.tx_enh_fifo_full
--tx_enh_fifo_pfull : out std_logic_vector(0 downto 0); -- tx_enh_fifo_pfull.tx_enh_fifo_pfull
--tx_enh_fifo_empty : out std_logic_vector(0 downto 0); -- tx_enh_fifo_empty.tx_enh_fifo_empty
--tx_enh_fifo_pempty : out std_logic_vector(0 downto 0); -- tx_enh_fifo_pempty.tx_enh_fifo_pempty
--rx_enh_data_valid : out std_logic_vector(0 downto 0); -- rx_enh_data_valid.rx_enh_data_valid
--rx_enh_fifo_full : out std_logic_vector(0 downto 0); -- rx_enh_fifo_full.rx_enh_fifo_full
--rx_enh_fifo_empty : out std_logic_vector(0 downto 0); -- rx_enh_fifo_empty.rx_enh_fifo_empty
--rx_enh_fifo_del : out std_logic_vector(0 downto 0); -- rx_enh_fifo_del.rx_enh_fifo_del
--rx_enh_fifo_insert : out std_logic_vector(0 downto 0); -- rx_enh_fifo_insert.rx_enh_fifo_insert
--rx_enh_highber : out std_logic_vector(0 downto 0); -- rx_enh_highber.rx_enh_highber
--rx_enh_blk_lock : out std_logic_vector(0 downto 0); -- rx_enh_blk_lock.rx_enh_blk_lock
);
gen_phy_1
:
IF
c_nof_channels_per_ip
=
1
GENERATE
gen_channels
:
FOR
I
IN
0
TO
g_nof_channels
-1
GENERATE
u_ip_arria10_phy_10gbase_r
:
ip_arria10_phy_10gbase_r
PORT
MAP
(
tx_analogreset
=>
tx_analogreset_arr
(
I
DOWNTO
I
),
tx_digitalreset
=>
tx_digitalreset_arr
(
I
DOWNTO
I
),
rx_analogreset
=>
rx_analogreset_arr
(
I
DOWNTO
I
),
rx_digitalreset
=>
rx_digitalreset_arr
(
I
DOWNTO
I
),
tx_cal_busy
=>
tx_cal_busy_arr
(
I
DOWNTO
I
),
rx_cal_busy
=>
rx_cal_busy_arr
(
I
DOWNTO
I
),
tx_serial_clk0
=>
tx_serial_clk
,
rx_cdr_refclk0
=>
tr_ref_clk_644
,
tx_serial_data
=>
tx_serial_arr
(
I
DOWNTO
I
),
rx_serial_data
=>
rx_serial_arr
(
I
DOWNTO
I
),
rx_is_lockedtoref
=>
OPEN
,
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
I
DOWNTO
I
),
tx_coreclkin
=>
tr_coreclkin
,
-- 156.25 MHz
rx_coreclkin
=>
tr_coreclkin
,
-- 156.25 MHz
tx_parallel_data
=>
tx_parallel_data_arr
(
I
),
rx_parallel_data
=>
rx_parallel_data_arr
(
I
),
tx_control
=>
tx_control_arr
(
I
),
rx_control
=>
rx_control_arr
(
I
)
--tx_err_ins : in std_logic := '0'; -- tx_err_ins.tx_err_ins
--tx_enh_data_valid : in std_logic_vector(0 downto 0) := (others => '0'); -- tx_enh_data_valid.tx_enh_data_valid
--tx_enh_fifo_full : out std_logic_vector(0 downto 0); -- tx_enh_fifo_full.tx_enh_fifo_full
--tx_enh_fifo_pfull : out std_logic_vector(0 downto 0); -- tx_enh_fifo_pfull.tx_enh_fifo_pfull
--tx_enh_fifo_empty : out std_logic_vector(0 downto 0); -- tx_enh_fifo_empty.tx_enh_fifo_empty
--tx_enh_fifo_pempty : out std_logic_vector(0 downto 0); -- tx_enh_fifo_pempty.tx_enh_fifo_pempty
--rx_enh_data_valid : out std_logic_vector(0 downto 0); -- rx_enh_data_valid.rx_enh_data_valid
--rx_enh_fifo_full : out std_logic_vector(0 downto 0); -- rx_enh_fifo_full.rx_enh_fifo_full
--rx_enh_fifo_empty : out std_logic_vector(0 downto 0); -- rx_enh_fifo_empty.rx_enh_fifo_empty
--rx_enh_fifo_del : out std_logic_vector(0 downto 0); -- rx_enh_fifo_del.rx_enh_fifo_del
--rx_enh_fifo_insert : out std_logic_vector(0 downto 0); -- rx_enh_fifo_insert.rx_enh_fifo_insert
--rx_enh_highber : out std_logic_vector(0 downto 0); -- rx_enh_highber.rx_enh_highber
--rx_enh_blk_lock : out std_logic_vector(0 downto 0); -- rx_enh_blk_lock.rx_enh_blk_lock
--unused_tx_parallel_data : in std_logic_vector(63 downto 0) := (others => '0'); -- unused_tx_parallel_data.unused_tx_parallel_data
--unused_tx_control : in std_logic_vector(8 downto 0) := (others => '0'); -- unused_tx_control.unused_tx_control
--unused_rx_parallel_data : out std_logic_vector(63 downto 0); -- unused_rx_parallel_data.unused_rx_parallel_data
--unused_rx_control : out std_logic_vector(11 downto 0); -- unused_rx_control.unused_rx_control
);
u_ip_arria10_transceiver_reset_controller_1
:
ip_arria10_transceiver_reset_controller_1
PORT
MAP
(
clock
=>
clk_156
,
reset
=>
rst_156
,
pll_powerdown
=>
atx_pll_powerdown_arr
(
I
DOWNTO
I
),
tx_analogreset
=>
tx_analogreset_arr
(
I
DOWNTO
I
),
tx_digitalreset
=>
tx_digitalreset_arr
(
I
DOWNTO
I
),
tx_ready
=>
xgmii_tx_ready_arr
(
I
DOWNTO
I
),
pll_locked
=>
atx_pll_locked_arr
(
I
DOWNTO
I
),
pll_select
=>
"0"
,
-- set to zero when using one PLL
tx_cal_busy
=>
cal_busy_arr
(
I
DOWNTO
I
),
rx_analogreset
=>
rx_analogreset_arr
(
I
DOWNTO
I
),
rx_digitalreset
=>
rx_digitalreset_arr
(
I
DOWNTO
I
),
rx_ready
=>
xgmii_rx_ready_arr
(
I
DOWNTO
I
),
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
I
DOWNTO
I
),
rx_cal_busy
=>
rx_cal_busy_arr
(
I
DOWNTO
I
)
);
END
GENERATE
;
END
GENERATE
;
u_ip_arria10_transceiver_reset_controller_1
:
ip_arria10_transceiver_reset_controller_1
gen_phy_24
:
IF
c_nof_channels_per_ip
=
24
GENERATE
tx_serial_clk_slv
<=
(
OTHERS
=>
tx_serial_clk
(
0
));
tr_coreclkin_slv
<=
(
OTHERS
=>
tr_coreclkin
(
0
));
gen_channels
:
FOR
I
IN
0
TO
g_nof_channels
-1
GENERATE
tx_parallel_data_arr_slv
((
I
+
1
)
*
c_xgmii_data_w
-1
DOWNTO
I
*
c_xgmii_data_w
)
<=
tx_parallel_data_arr
(
I
);
tx_control_arr_slv
((
I
+
1
)
*
c_xgmii_nof_lanes
-1
DOWNTO
I
*
c_xgmii_nof_lanes
)
<=
tx_control_arr
(
I
);
rx_parallel_data_arr
(
I
)
<=
rx_parallel_data_arr_slv
((
I
+
1
)
*
c_xgmii_data_w
-1
DOWNTO
I
*
c_xgmii_data_w
);
rx_control_arr
(
I
)
<=
rx_control_arr_slv
((
I
+
1
)
*
c_xgmii_nof_lanes
-1
DOWNTO
I
*
c_xgmii_nof_lanes
);
END
GENERATE
;
u_ip_arria10_phy_10gbase_r_24
:
ip_arria10_phy_10gbase_r_24
PORT
MAP
(
clock
=>
clk_156
,
reset
=>
rst_156
,
pll_powerdown
=>
atx_pll_powerdown
(
I
DOWNTO
I
),
tx_analogreset
=>
tx_analogreset_arr
(
I
DOWNTO
I
),
tx_digitalreset
=>
tx_digitalreset_arr
(
I
DOWNTO
I
),
tx_ready
=>
xgmii_tx_ready_arr
(
I
DOWNTO
I
),
pll_locked
=>
atx_pll_locked_arr
(
I
DOWNTO
I
),
pll_select
=>
"0"
,
-- set to zero when using one PLL
tx_cal_busy
=>
cal_busy_arr
(
I
DOWNTO
I
),
rx_analogreset
=>
rx_analogreset_arr
(
I
DOWNTO
I
),
rx_digitalreset
=>
rx_digitalreset_arr
(
I
DOWNTO
I
),
rx_ready
=>
xgmii_rx_ready_arr
(
I
DOWNTO
I
),
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
I
DOWNTO
I
),
rx_cal_busy
=>
rx_cal_busy_arr
(
I
DOWNTO
I
)
tx_analogreset
=>
tx_analogreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- tx_analogreset.tx_analogreset
tx_digitalreset
=>
tx_digitalreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- tx_digitalreset.tx_digitalreset
rx_analogreset
=>
rx_analogreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- rx_analogreset.rx_analogreset
rx_digitalreset
=>
rx_digitalreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- rx_digitalreset.rx_digitalreset
tx_cal_busy
=>
tx_cal_busy_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- out std_logic_vector(23 downto 0); -- tx_cal_busy.tx_cal_busy
rx_cal_busy
=>
rx_cal_busy_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- out std_logic_vector(23 downto 0); -- rx_cal_busy.rx_cal_busy
tx_serial_clk0
=>
tx_serial_clk_slv
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- tx_serial_clk0.clk
rx_cdr_refclk0
=>
tr_ref_clk_644
,
-- in std_logic := '0'; -- rx_cdr_refclk0.clk
tx_serial_data
=>
tx_serial_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- out std_logic_vector(23 downto 0); -- tx_serial_data.tx_serial_data
rx_serial_data
=>
rx_serial_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- rx_serial_data.rx_serial_data
--rx_is_lockedtoref : out std_logic_vector(23 downto 0); -- rx_is_lockedtoref.rx_is_lockedtoref
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- out std_logic_vector(23 downto 0); -- rx_is_lockedtodata.rx_is_lockedtodata
tx_coreclkin
=>
tr_coreclkin_slv
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- tx_coreclkin.clk
rx_coreclkin
=>
tr_coreclkin_slv
(
IP_SIZE
-1
DOWNTO
0
),
-- in std_logic_vector(23 downto 0) := (others => '0'); -- rx_coreclkin.clk
tx_parallel_data
=>
tx_parallel_data_arr_slv
(
IP_SIZE_DATA
-1
DOWNTO
0
),
-- in std_logic_vector(1535 downto 0) := (others => '0'); -- tx_parallel_data.tx_parallel_data
rx_parallel_data
=>
rx_parallel_data_arr_slv
(
IP_SIZE_DATA
-1
DOWNTO
0
),
-- out std_logic_vector(1535 downto 0); -- rx_parallel_data.rx_parallel_data
tx_control
=>
tx_control_arr_slv
(
IP_SIZE_CONTROL
-1
DOWNTO
0
),
-- in std_logic_vector(191 downto 0) := (others => '0'); -- tx_control.tx_control
rx_control
=>
rx_control_arr_slv
(
IP_SIZE_CONTROL
-1
DOWNTO
0
)
-- out std_logic_vector(191 downto 0); -- rx_control.rx_control
--tx_clkout : out std_logic_vector(23 downto 0); -- tx_clkout.clk
--rx_clkout : out std_logic_vector(23 downto 0); -- rx_clkout.clk
--tx_err_ins : in std_logic_vector(23 downto 0) := (others => '0'); -- tx_err_ins.tx_err_ins
--tx_enh_data_valid : in std_logic_vector(23 downto 0) := (others => '0'); -- tx_enh_data_valid.tx_enh_data_valid
--tx_enh_fifo_empty : out std_logic_vector(23 downto 0); -- tx_enh_fifo_empty.tx_enh_fifo_empty
--tx_enh_fifo_full : out std_logic_vector(23 downto 0); -- tx_enh_fifo_full.tx_enh_fifo_full
--tx_enh_fifo_pempty : out std_logic_vector(23 downto 0); -- tx_enh_fifo_pempty.tx_enh_fifo_pempty
--tx_enh_fifo_pfull : out std_logic_vector(23 downto 0); -- tx_enh_fifo_pfull.tx_enh_fifo_pfull
--tx_pma_div_clkout : out std_logic_vector(23 downto 0); -- tx_pma_div_clkout.clk
--rx_enh_blk_lock : out std_logic_vector(23 downto 0); -- rx_enh_blk_lock.rx_enh_blk_lock
--rx_enh_data_valid : out std_logic_vector(23 downto 0); -- rx_enh_data_valid.rx_enh_data_valid
--rx_enh_fifo_del : out std_logic_vector(23 downto 0); -- rx_enh_fifo_del.rx_enh_fifo_del
--rx_enh_fifo_empty : out std_logic_vector(23 downto 0); -- rx_enh_fifo_empty.rx_enh_fifo_empty
--rx_enh_fifo_full : out std_logic_vector(23 downto 0); -- rx_enh_fifo_full.rx_enh_fifo_full
--rx_enh_fifo_insert : out std_logic_vector(23 downto 0); -- rx_enh_fifo_insert.rx_enh_fifo_insert
--rx_enh_highber : out std_logic_vector(23 downto 0); -- rx_enh_highber.rx_enh_highber
--unused_rx_control : out std_logic_vector(287 downto 0); -- unused_rx_control.unused_rx_control
--unused_rx_parallel_data : out std_logic_vector(1535 downto 0); -- unused_rx_parallel_data.unused_rx_parallel_data
--unused_tx_control : in std_logic_vector(215 downto 0) := (others => '0'); -- unused_tx_control.unused_tx_control
--unused_tx_parallel_data : in std_logic_vector(1535 downto 0) := (others => '0') -- unused_tx_parallel_data.unused_tx_parallel_data
);
u_ip_arria10_transceiver_reset_controller_24
:
ip_arria10_transceiver_reset_controller_24
PORT
MAP
(
clock
=>
clk_156
,
-- : in std_logic := '0'; -- clock.clk
pll_locked
=>
atx_pll_locked_arr
(
0
DOWNTO
0
),
-- : in std_logic_vector(0 downto 0) := (others => '0'); -- pll_locked.pll_locked
pll_powerdown
=>
atx_pll_powerdown_arr
(
0
DOWNTO
0
),
-- : out std_logic_vector(0 downto 0); -- pll_powerdown.pll_powerdown
pll_select
=>
"0"
,
-- : in std_logic_vector(0 downto 0) := (others => '0'); -- pll_select.pll_select
reset
=>
rst_156
,
-- : in std_logic := '0'; -- reset.reset
rx_analogreset
=>
rx_analogreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : out std_logic_vector(23 downto 0); -- rx_analogreset.rx_analogreset
rx_cal_busy
=>
rx_cal_busy_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : in std_logic_vector(23 downto 0) := (others => '0'); -- rx_cal_busy.rx_cal_busy
rx_digitalreset
=>
rx_digitalreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : out std_logic_vector(23 downto 0); -- rx_digitalreset.rx_digitalreset
rx_is_lockedtodata
=>
rx_is_lockedtodata_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : in std_logic_vector(23 downto 0) := (others => '0'); -- rx_is_lockedtodata.rx_is_lockedtodata
rx_ready
=>
xgmii_rx_ready_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : out std_logic_vector(23 downto 0); -- rx_ready.rx_ready
tx_analogreset
=>
tx_analogreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : out std_logic_vector(23 downto 0); -- tx_analogreset.tx_analogreset
tx_cal_busy
=>
cal_busy_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : in std_logic_vector(23 downto 0) := (others => '0'); -- tx_cal_busy.tx_cal_busy
tx_digitalreset
=>
tx_digitalreset_arr
(
IP_SIZE
-1
DOWNTO
0
),
-- : out std_logic_vector(23 downto 0); -- tx_digitalreset.tx_digitalreset
tx_ready
=>
xgmii_tx_ready_arr
(
IP_SIZE
-1
DOWNTO
0
)
-- : out std_logic_vector(23 downto 0) -- tx_ready.tx_ready
);
END
GENERATE
;
-- ATX PLL
u_ip_arria10_transceiver_pll_10g
:
ip_arria10_transceiver_pll_10g
PORT
MAP
(
pll_powerdown
=>
atx_pll_powerdown
(
0
),
pll_powerdown
=>
atx_pll_powerdown
_arr
(
0
),
-- only use reset controller 0 for ATX PLL power down, leave others not used
pll_refclk0
=>
tr_ref_clk_644
,
tx_serial_clk
=>
tx_serial_clk
(
0
),
pll_locked
=>
atx_pll_locked
,
...
...
This diff is collapsed.
Click to expand it.
Preview
0%
Loading
Try again
or
attach a new file
.
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Save comment
Cancel
Please
register
or
sign in
to comment
