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Elphel
x393_sata
Commits
68770ef4
Commit
68770ef4
authored
Mar 11, 2016
by
Andrey Filippov
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68770ef4
/*******************************************************************************
* Module: top
* Date: 2015-07-11
* Author: Alexey
* Description: top-level module, instantiates PS7 + sata host controller
*
* Copyright (c) 2015 Elphel, Inc.
* top.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.
*
* top.v file 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/> .
*
* Additional permission under GNU GPL version 3 section 7:
* If you modify this Program, or any covered work, by linking or combining it
* with independent modules provided by the FPGA vendor only (this permission
* does not extend to any 3-rd party modules, "soft cores" or macros) under
* different license terms solely for the purpose of generating binary "bitstream"
* files and/or simulating the code, the copyright holders of this Program give
* you the right to distribute the covered work without those independent modules
* as long as the source code for them is available from the FPGA vendor free of
* charge, and there is no dependence on any encrypted modules for simulating of
* the combined code. This permission applies to you if the distributed code
* contains all the components and scripts required to completely simulate it
* with at least one of the Free Software programs.
*******************************************************************************/
/*
* all signals' and modules' names and interconnections are taken from x393.v
* to make the final integration easier - just to make an instance of
* what is called now 'axi_regs' and connect it
*/
// Including system defines at the top level can distinguish between simulation and synthesis?
`include
"system_defines.vh"
module
top
#(
`include
"includes/x393_parameters.vh"
// SuppressThisWarning VEditor - partially used
)
(
// sata serial data iface
input
wire
RXN
,
input
wire
RXP
,
output
wire
TXN
,
output
wire
TXP
,
// sata clocking iface
input
wire
EXTCLK_P
,
input
wire
EXTCLK_N
)
;
wire
axi_aclk0
;
wire
sclk
;
// Just output from SATA subsystem SuppressThisWarning VEditor Not used
wire
sata_rst
;
// Just output from SATA subsystem SuppressThisWarning VEditor Not used
wire
extrst
;
wire
[
3
:
0
]
fclk
;
wire
[
3
:
0
]
frst
;
//wire axi_aclk;
wire
axi_rst
;
wire
hclk
;
wire
comb_rst
;
wire
[
31
:
0
]
maxi1_araddr
;
wire
maxi1_arvalid
;
wire
maxi1_arready
;
wire
[
11
:
0
]
maxi1_arid
;
wire
[
3
:
0
]
maxi1_arlen
;
wire
[
1
:
0
]
maxi1_arsize
;
wire
[
1
:
0
]
maxi1_arburst
;
wire
[
31
:
0
]
maxi1_rdata
;
wire
maxi1_rvalid
;
wire
maxi1_rready
;
wire
[
11
:
0
]
maxi1_rid
;
wire
maxi1_rlast
;
wire
[
1
:
0
]
maxi1_rresp
;
wire
[
31
:
0
]
maxi1_awaddr
;
wire
maxi1_awvalid
;
wire
maxi1_awready
;
wire
[
11
:
0
]
maxi1_awid
;
wire
[
3
:
0
]
maxi1_awlen
;
wire
[
1
:
0
]
maxi1_awsize
;
wire
[
1
:
0
]
maxi1_awburst
;
wire
[
31
:
0
]
maxi1_wdata
;
wire
maxi1_wvalid
;
wire
maxi1_wready
;
wire
[
11
:
0
]
maxi1_wid
;
wire
maxi1_wlast
;
wire
[
3
:
0
]
maxi1_wstb
;
wire
maxi1_bvalid
;
wire
maxi1_bready
;
wire
[
11
:
0
]
maxi1_bid
;
wire
[
1
:
0
]
maxi1_bresp
;
reg
axi_rst_pre
;
// membridge
wire
[
31
:
0
]
afi3_awaddr
;
// output[31:0]
wire
afi3_awvalid
;
// output
wire
afi3_awready
;
// input
wire
[
5
:
0
]
afi3_awid
;
// output[5:0]
wire
[
1
:
0
]
afi3_awlock
;
// output[1:0]
wire
[
3
:
0
]
afi3_awcache
;
// output[3:0]
wire
[
2
:
0
]
afi3_awprot
;
// output[2:0]
wire
[
3
:
0
]
afi3_awlen
;
// output[3:0]
wire
[
1
:
0
]
afi3_awsize
;
// output[2:0]
wire
[
1
:
0
]
afi3_awburst
;
// output[1:0]
wire
[
3
:
0
]
afi3_awqos
;
// output[3:0]
wire
[
63
:
0
]
afi3_wdata
;
// output[63:0]
wire
afi3_wvalid
;
// output
wire
afi3_wready
;
// input
wire
[
5
:
0
]
afi3_wid
;
// output[5:0]
wire
afi3_wlast
;
// output
wire
[
7
:
0
]
afi3_wstrb
;
// output[7:0]
wire
afi3_bvalid
;
// input
wire
afi3_bready
;
// output
wire
[
5
:
0
]
afi3_bid
;
// input[5:0]
wire
[
1
:
0
]
afi3_bresp
;
// input[1:0]
wire
[
7
:
0
]
afi3_wcount
;
// input[7:0]
wire
[
5
:
0
]
afi3_wacount
;
// input[5:0]
wire
afi3_wrissuecap1en
;
// output
wire
[
31
:
0
]
afi3_araddr
;
// output[31:0]
wire
afi3_arvalid
;
// output
wire
afi3_arready
;
// input
wire
[
5
:
0
]
afi3_arid
;
// output[5:0]
wire
[
1
:
0
]
afi3_arlock
;
// output[1:0]
wire
[
3
:
0
]
afi3_arcache
;
// output[3:0]
wire
[
2
:
0
]
afi3_arprot
;
// output[2:0]
wire
[
3
:
0
]
afi3_arlen
;
// output[3:0]
wire
[
1
:
0
]
afi3_arsize
;
// output[2:0]
wire
[
1
:
0
]
afi3_arburst
;
// output[1:0]
wire
[
3
:
0
]
afi3_arqos
;
// output[3:0]
wire
[
63
:
0
]
afi3_rdata
;
// input[63:0]
wire
afi3_rvalid
;
// input
wire
afi3_rready
;
// output
wire
[
5
:
0
]
afi3_rid
;
// input[5:0]
wire
afi3_rlast
;
// input
wire
[
1
:
0
]
afi3_rresp
;
// input[2:0]
wire
[
7
:
0
]
afi3_rcount
;
// input[7:0]
wire
[
2
:
0
]
afi3_racount
;
// input[2:0]
wire
afi3_rdissuecap1en
;
// output
wire
irq
;
// ps7 IRQ
assign
comb_rst
=~
frst
[
0
]
|
frst
[
1
]
;
always
@
(
posedge
comb_rst
or
posedge
axi_aclk0
)
begin
if
(
comb_rst
)
axi_rst_pre
<=
1'b1
;
else
axi_rst_pre
<=
1'b0
;
end
//BUFG bufg_axi_aclk_i (.O(axi_aclk),.I(/*fclk[0]*/ sclk));
//assign axi_aclk = sclk;
BUFG
bufg_axi_aclk0_i
(
.
O
(
axi_aclk0
)
,.
I
(
fclk
[
0
]))
;
BUFG
bufg_axi_rst_i
(
.
O
(
axi_rst
)
,.
I
(
axi_rst_pre
))
;
BUFG
bufg_extrst_i
(
.
O
(
extrst
)
,.
I
(
axi_rst_pre
))
;
axi_hp_clk
#(
.
CLKIN_PERIOD
(
20.000
)
,
.
CLKFBOUT_MULT_AXIHP
(
18
)
,
.
CLKFBOUT_DIV_AXIHP
(
6
)
)
axi_hp_clk_i
(
.
rst
(
axi_rst
)
,
// input
.
clk_in
(
axi_aclk0
)
,
// input
.
clk_axihp
(
hclk
)
,
// output
.
locked_axihp
()
// output // not controlled?
)
;
`ifdef
AHCI_SATA
sata_ahci_top
sata_top
(
`else
sata_top
sata_top
(
`endif
.
sata_clk
(
sclk
)
,
// reliable clock to source drp and cpll lock det circuits
.
reliable_clk
(
axi_aclk0
)
,
.
hclk
(
hclk
)
,
.
sata_rst
(
sata_rst
)
,
.
arst
(
extrst
)
,
.
ACLK
(
axi_aclk0
)
,
.
ARESETN
(
axi_rst
/* | sata_rst*/
)
,
// AXI PS Master GP1: Read Address
.
ARADDR
(
maxi1_araddr
)
,
.
ARVALID
(
maxi1_arvalid
)
,
.
ARREADY
(
maxi1_arready
)
,
.
ARID
(
maxi1_arid
)
,
.
ARLEN
(
maxi1_arlen
)
,
.
ARSIZE
(
maxi1_arsize
)
,
.
ARBURST
(
maxi1_arburst
)
,
// AXI PS Master GP1: Read Data
.
RDATA
(
maxi1_rdata
)
,
.
RVALID
(
maxi1_rvalid
)
,
.
RREADY
(
maxi1_rready
)
,
.
RID
(
maxi1_rid
)
,
.
RLAST
(
maxi1_rlast
)
,
.
RRESP
(
maxi1_rresp
)
,
// AXI PS Master GP1: Write Address
.
AWADDR
(
maxi1_awaddr
)
,
.
AWVALID
(
maxi1_awvalid
)
,
.
AWREADY
(
maxi1_awready
)
,
.
AWID
(
maxi1_awid
)
,
.
AWLEN
(
maxi1_awlen
)
,
.
AWSIZE
(
maxi1_awsize
)
,
.
AWBURST
(
maxi1_awburst
)
,
// AXI PS Master GP1: Write Data
.
WDATA
(
maxi1_wdata
)
,
.
WVALID
(
maxi1_wvalid
)
,
.
WREADY
(
maxi1_wready
)
,
.
WID
(
maxi1_wid
)
,
.
WLAST
(
maxi1_wlast
)
,
.
WSTRB
(
maxi1_wstb
)
,
// AXI PS Master GP1: Write response
.
BVALID
(
maxi1_bvalid
)
,
.
BREADY
(
maxi1_bready
)
,
.
BID
(
maxi1_bid
)
,
.
BRESP
(
maxi1_bresp
)
,
/*
* Data interface
*/
.
afi_awaddr
(
afi3_awaddr
)
,
.
afi_awvalid
(
afi3_awvalid
)
,
.
afi_awready
(
afi3_awready
)
,
.
afi_awid
(
afi3_awid
)
,
.
afi_awlock
(
afi3_awlock
)
,
.
afi_awcache
(
afi3_awcache
)
,
.
afi_awprot
(
afi3_awprot
)
,
.
afi_awlen
(
afi3_awlen
)
,
.
afi_awsize
(
afi3_awsize
)
,
.
afi_awburst
(
afi3_awburst
)
,
.
afi_awqos
(
afi3_awqos
)
,
// write data
.
afi_wdata
(
afi3_wdata
)
,
.
afi_wvalid
(
afi3_wvalid
)
,
.
afi_wready
(
afi3_wready
)
,
.
afi_wid
(
afi3_wid
)
,
.
afi_wlast
(
afi3_wlast
)
,
.
afi_wstrb
(
afi3_wstrb
)
,
// write response
.
afi_bvalid
(
afi3_bvalid
)
,
.
afi_bready
(
afi3_bready
)
,
.
afi_bid
(
afi3_bid
)
,
.
afi_bresp
(
afi3_bresp
)
,
// PL extra (non-AXI) signal
.
afi_wcount
(
afi3_wcount
)
,
.
afi_wacount
(
afi3_wacount
)
,
.
afi_wrissuecap1en
(
afi3_wrissuecap1en
)
,
// AXI_HP signals - read channel
// read address
.
afi_araddr
(
afi3_araddr
)
,
.
afi_arvalid
(
afi3_arvalid
)
,
.
afi_arready
(
afi3_arready
)
,
.
afi_arid
(
afi3_arid
)
,
.
afi_arlock
(
afi3_arlock
)
,
.
afi_arcache
(
afi3_arcache
)
,
.
afi_arprot
(
afi3_arprot
)
,
.
afi_arlen
(
afi3_arlen
)
,
.
afi_arsize
(
afi3_arsize
)
,
.
afi_arburst
(
afi3_arburst
)
,
.
afi_arqos
(
afi3_arqos
)
,
// read data
.
afi_rdata
(
afi3_rdata
)
,
.
afi_rvalid
(
afi3_rvalid
)
,
.
afi_rready
(
afi3_rready
)
,
.
afi_rid
(
afi3_rid
)
,
.
afi_rlast
(
afi3_rlast
)
,
.
afi_rresp
(
afi3_rresp
)
,
// PL extra (non-AXI) signal
.
afi_rcount
(
afi3_rcount
)
,
.
afi_racount
(
afi3_racount
)
,
.
afi_rdissuecap1en
(
afi3_rdissuecap1en
)
,
.
irq
(
irq
)
,
// output wire
/*
* PHY
*/
.
TXN
(
TXN
)
,
.
TXP
(
TXP
)
,
.
RXN
(
RXN
)
,
.
RXP
(
RXP
)
,
.
EXTCLK_P
(
EXTCLK_P
)
,
.
EXTCLK_N
(
EXTCLK_N
)
)
;
PS7
ps7_i
(
// EMIO interface
// CAN interface
.
EMIOCAN0PHYTX
()
,
// CAN 0 TX, output
.
EMIOCAN0PHYRX
()
,
// CAN 0 RX, input
.
EMIOCAN1PHYTX
()
,
// Can 1 TX, output
.
EMIOCAN1PHYRX
()
,
// CAN 1 RX, input
// GMII 0
.
EMIOENET0GMIICRS
()
,
// GMII 0 Carrier sense, input
.
EMIOENET0GMIICOL
()
,
// GMII 0 Collision detect, input
.
EMIOENET0EXTINTIN
()
,
// GMII 0 Controller Interrupt input, input
// GMII 0 TX signals
.
EMIOENET0GMIITXCLK
()
,
// GMII 0 TX clock, input
.
EMIOENET0GMIITXD
()
,
// GMII 0 Tx Data[7:0], output
.
EMIOENET0GMIITXEN
()
,
// GMII 0 Tx En, output
.
EMIOENET0GMIITXER
()
,
// GMII 0 Tx Err, output
// GMII 0 TX timestamp signals
.
EMIOENET0SOFTX
()
,
// GMII 0 Tx Tx Start-of-Frame, output
.
EMIOENET0PTPDELAYREQTX
()
,
// GMII 0 Tx PTP delay req frame detected, output
.
EMIOENET0PTPPDELAYREQTX
()
,
// GMII 0 Tx PTP peer delay frame detect, output
.
EMIOENET0PTPPDELAYRESPTX
()
,
// GMII 0 Tx PTP pear delay response frame detected, output
.
EMIOENET0PTPSYNCFRAMETX
()
,
// GMII 0 Tx PTP sync frame detected, output
// GMII 0 RX signals
.
EMIOENET0GMIIRXCLK
()
,
// GMII 0 Rx Clock, input
.
EMIOENET0GMIIRXD
()
,
// GMII 0 Rx Data (7:0), input
.
EMIOENET0GMIIRXDV
()
,
// GMII 0 Rx Data valid, input
.
EMIOENET0GMIIRXER
()
,
// GMII 0 Rx Error, input
// GMII 0 RX timestamp signals
.
EMIOENET0SOFRX
()
,
// GMII 0 Rx Start of Frame, output
.
EMIOENET0PTPDELAYREQRX
()
,
// GMII 0 Rx PTP delay req frame detected
.
EMIOENET0PTPPDELAYREQRX
()
,
// GMII 0 Rx PTP peer delay frame detected, output
.
EMIOENET0PTPPDELAYRESPRX
()
,
// GMII 0 Rx PTP peer delay response frame detected, output
.
EMIOENET0PTPSYNCFRAMERX
()
,
// GMII 0 Rx PTP sync frame detected, output
// MDIO 0
.
EMIOENET0MDIOMDC
()
,
// MDIO 0 MD clock output, output
.
EMIOENET0MDIOO
()
,
// MDIO 0 MD data output, output
.
EMIOENET0MDIOTN
()
,
// MDIO 0 MD data 3-state, output
.
EMIOENET0MDIOI
()
,
// MDIO 0 MD data input, input
// GMII 1
.
EMIOENET1GMIICRS
()
,
// GMII 1 Carrier sense, input
.
EMIOENET1GMIICOL
()
,
// GMII 1 Collision detect, input
.
EMIOENET1EXTINTIN
()
,
// GMII 1 Controller Interrupt input, input
// GMII 1 TX signals
.
EMIOENET1GMIITXCLK
()
,
// GMII 1 TX clock, input
.
EMIOENET1GMIITXD
()
,
// GMII 1 Tx Data[7:0], output
.
EMIOENET1GMIITXEN
()
,
// GMII 1 Tx En, output
.
EMIOENET1GMIITXER
()
,
// GMII 1 Tx Err, output
// GMII 1 TX timestamp signals
.
EMIOENET1SOFTX
()
,
// GMII 1 Tx Tx Start-of-Frame, output
.
EMIOENET1PTPDELAYREQTX
()
,
// GMII 1 Tx PTP delay req frame detected, output
.
EMIOENET1PTPPDELAYREQTX
()
,
// GMII 1 Tx PTP peer delay frame detect, output
.
EMIOENET1PTPPDELAYRESPTX
()
,
// GMII 1 Tx PTP pear delay response frame detected, output
.
EMIOENET1PTPSYNCFRAMETX
()
,
// GMII 1 Tx PTP sync frame detected, output
// GMII 1 RX signals
.
EMIOENET1GMIIRXCLK
()
,
// GMII 1 Rx Clock, input
.
EMIOENET1GMIIRXD
()
,
// GMII 1 Rx Data (7:0), input
.
EMIOENET1GMIIRXDV
()
,
// GMII 1 Rx Data valid, input
.
EMIOENET1GMIIRXER
()
,
// GMII 1 Rx Error, input
// GMII 1 RX timestamp signals
.
EMIOENET1SOFRX
()
,
// GMII 1 Rx Start of Frame, output
.
EMIOENET1PTPDELAYREQRX
()
,
// GMII 1 Rx PTP delay req frame detected
.
EMIOENET1PTPPDELAYREQRX
()
,
// GMII 1 Rx PTP peer delay frame detected, output
.
EMIOENET1PTPPDELAYRESPRX
()
,
// GMII 1 Rx PTP peer delay response frame detected, output
.
EMIOENET1PTPSYNCFRAMERX
()
,
// GMII 1 Rx PTP sync frame detected, output
// MDIO 1
.
EMIOENET1MDIOMDC
()
,
// MDIO 1 MD clock output, output
.
EMIOENET1MDIOO
()
,
// MDIO 1 MD data output, output
.
EMIOENET1MDIOTN
()
,
// MDIO 1 MD data 3-state, output
.
EMIOENET1MDIOI
()
,
// MDIO 1 MD data input, input
// EMIO GPIO
.
EMIOGPIOO
()
,
// EMIO GPIO Data out[63:0], output
.
EMIOGPIOI
(
/*gpio_in[63:0]*/
)
,
// EMIO GPIO Data in[63:0], input
.
EMIOGPIOTN
()
,
// EMIO GPIO OutputEnable[63:0], output
// EMIO I2C 0
.
EMIOI2C0SCLO
()
,
// I2C 0 SCL OUT, output // manual says input
.
EMIOI2C0SCLI
()
,
// I2C 0 SCL IN, input // manual says output
.
EMIOI2C0SCLTN
()
,
// I2C 0 SCL EN, output // manual says input
.
EMIOI2C0SDAO
()
,
// I2C 0 SDA OUT, output // manual says input
.
EMIOI2C0SDAI
()
,
// I2C 0 SDA IN, input // manual says output
.
EMIOI2C0SDATN
()
,
// I2C 0 SDA EN, output // manual says input
// EMIO I2C 1
.
EMIOI2C1SCLO
()
,
// I2C 1 SCL OUT, output // manual says input
.
EMIOI2C1SCLI
()
,
// I2C 1 SCL IN, input // manual says output
.
EMIOI2C1SCLTN
()
,
// I2C 1 SCL EN, output // manual says input
.
EMIOI2C1SDAO
()
,
// I2C 1 SDA OUT, output // manual says input
.
EMIOI2C1SDAI
()
,
// I2C 1 SDA IN, input // manual says output
.
EMIOI2C1SDATN
()
,
// I2C 1 SDA EN, output // manual says input
// JTAG
.
EMIOPJTAGTCK
()
,
// JTAG TCK, input
.
EMIOPJTAGTMS
()
,
// JTAG TMS, input
.
EMIOPJTAGTDI
()
,
// JTAG TDI, input
.
EMIOPJTAGTDO
()
,
// JTAG TDO, output
.
EMIOPJTAGTDTN
()
,
// JTAG TDO OE, output
// SDIO 0
.
EMIOSDIO0CLKFB
()
,
// SDIO 0 Clock feedback, input
.
EMIOSDIO0CLK
()
,
// SDIO 0 Clock, output
.
EMIOSDIO0CMDI
()
,
// SDIO 0 Command in, input
.
EMIOSDIO0CMDO
()
,
// SDIO 0 Command out, output
.
EMIOSDIO0CMDTN
()
,
// SDIO 0 command OE, output
.
EMIOSDIO0DATAI
()
,
// SDIO 0 Data in [3:0], input
.
EMIOSDIO0DATAO
()
,
// SDIO 0 Data out [3:0], output
.
EMIOSDIO0DATATN
()
,
// SDIO 0 Data OE [3:0], output
.
EMIOSDIO0CDN
()
,
// SDIO 0 Card detect, input
.
EMIOSDIO0WP
()
,
// SDIO 0 Write protect, input
.
EMIOSDIO0BUSPOW
()
,
// SDIO 0 Power control, output
.
EMIOSDIO0LED
()
,
// SDIO 0 LED control, output
.
EMIOSDIO0BUSVOLT
()
,
// SDIO 0 Bus voltage [2:0], output
// SDIO 1
.
EMIOSDIO1CLKFB
()
,
// SDIO 1 Clock feedback, input
.
EMIOSDIO1CLK
()
,
// SDIO 1 Clock, output
.
EMIOSDIO1CMDI
()
,
// SDIO 1 Command in, input
.
EMIOSDIO1CMDO
()
,
// SDIO 1 Command out, output
.
EMIOSDIO1CMDTN
()
,
// SDIO 1 command OE, output
.
EMIOSDIO1DATAI
()
,
// SDIO 1 Data in [3:0], input
.
EMIOSDIO1DATAO
()
,
// SDIO 1 Data out [3:0], output
.
EMIOSDIO1DATATN
()
,
// SDIO 1 Data OE [3:0], output
.
EMIOSDIO1CDN
()
,
// SDIO 1 Card detect, input
.
EMIOSDIO1WP
()
,
// SDIO 1 Write protect, input
.
EMIOSDIO1BUSPOW
()
,
// SDIO 1 Power control, output
.
EMIOSDIO1LED
()
,
// SDIO 1 LED control, output
.
EMIOSDIO1BUSVOLT
()
,
// SDIO 1 Bus voltage [2:0], output
// SPI 0
.
EMIOSPI0SCLKI
()
,
// SPI 0 CLK in , input
.
EMIOSPI0SCLKO
()
,
// SPI 0 CLK out, output
.
EMIOSPI0SCLKTN
()
,
// SPI 0 CLK OE, output
.
EMIOSPI0SI
()
,
// SPI 0 MOSI in , input
.
EMIOSPI0MO
()
,
// SPI 0 MOSI out , output
.
EMIOSPI0MOTN
()
,
// SPI 0 MOSI OE, output
.
EMIOSPI0MI
()
,
// SPI 0 MISO in, input
.
EMIOSPI0SO
()
,
// SPI 0 MISO out, output
.
EMIOSPI0STN
()
,
// SPI 0 MISO OE, output
.
EMIOSPI0SSIN
()
,
// SPI 0 Slave select 0 in, input
.
EMIOSPI0SSON
()
,
// SPI 0 Slave select [2:0] out, output
.
EMIOSPI0SSNTN
()
,
// SPI 0 Slave select OE, output
// SPI 1
.
EMIOSPI1SCLKI
()
,
// SPI 1 CLK in , input
.
EMIOSPI1SCLKO
()
,
// SPI 1 CLK out, output
.
EMIOSPI1SCLKTN
()
,
// SPI 1 CLK OE, output
.
EMIOSPI1SI
()
,
// SPI 1 MOSI in , input
.
EMIOSPI1MO
()
,
// SPI 1 MOSI out , output
.
EMIOSPI1MOTN
()
,
// SPI 1 MOSI OE, output
.
EMIOSPI1MI
()
,
// SPI 1 MISO in, input
.
EMIOSPI1SO
()
,
// SPI 1 MISO out, output
.
EMIOSPI1STN
()
,
// SPI 1 MISO OE, output
.
EMIOSPI1SSIN
()
,
// SPI 1 Slave select 0 in, input
.
EMIOSPI1SSON
()
,
// SPI 1 Slave select [2:0] out, output
.
EMIOSPI1SSNTN
()
,
// SPI 1 Slave select OE, output
// TPIU signals (Trace)
.
EMIOTRACECTL
()
,
// Trace CTL, output
.
EMIOTRACEDATA
()
,
// Trace Data[31:0], output
.
EMIOTRACECLK
()
,
// Trace CLK, input
// Timers/counters
.
EMIOTTC0CLKI
()
,
// Counter/Timer 0 clock in [2:0], input
.
EMIOTTC0WAVEO
()
,
// Counter/Timer 0 wave out[2:0], output
.
EMIOTTC1CLKI
()
,
// Counter/Timer 1 clock in [2:0], input
.
EMIOTTC1WAVEO
()
,
// Counter/Timer 1 wave out[2:0], output
//UART 0
.
EMIOUART0TX
()
,
// UART 0 Transmit, output
.
EMIOUART0RX
()
,
// UART 0 Receive, input
.
EMIOUART0CTSN
()
,
// UART 0 Clear To Send, input
.
EMIOUART0RTSN
()
,
// UART 0 Ready to Send, output
.
EMIOUART0DSRN
()
,
// UART 0 Data Set Ready , input
.
EMIOUART0DCDN
()
,
// UART 0 Data Carrier Detect, input
.
EMIOUART0RIN
()
,
// UART 0 Ring Indicator, input
.
EMIOUART0DTRN
()
,
// UART 0 Data Terminal Ready, output
//UART 1
.
EMIOUART1TX
()
,
// UART 1 Transmit, output
.
EMIOUART1RX
()
,
// UART 1 Receive, input
.
EMIOUART1CTSN
()
,
// UART 1 Clear To Send, input
.
EMIOUART1RTSN
()
,
// UART 1 Ready to Send, output
.
EMIOUART1DSRN
()
,
// UART 1 Data Set Ready , input
.
EMIOUART1DCDN
()
,
// UART 1 Data Carrier Detect, input
.
EMIOUART1RIN
()
,
// UART 1 Ring Indicator, input
.
EMIOUART1DTRN
()
,
// UART 1 Data Terminal Ready, output
// USB 0
.
EMIOUSB0PORTINDCTL
()
,
// USB 0 Port Indicator [1:0], output
.
EMIOUSB0VBUSPWRFAULT
()
,
// USB 0 Power Fault, input
.
EMIOUSB0VBUSPWRSELECT
()
,
// USB 0 Power Select, output
// USB 1
.
EMIOUSB1PORTINDCTL
()
,
// USB 1 Port Indicator [1:0], output
.
EMIOUSB1VBUSPWRFAULT
()
,
// USB 1 Power Fault, input
.
EMIOUSB1VBUSPWRSELECT
()
,
// USB 1 Power Select, output
// Watchdog Timer
.
EMIOWDTCLKI
()
,
// Watchdog Timer Clock in, input
.
EMIOWDTRSTO
()
,
// Watchdog Timer Reset out, output
// DMAC 0
.
DMA0ACLK
()
,
// DMAC 0 Clock, input
.
DMA0DRVALID
()
,
// DMAC 0 DMA Request Valid, input
.
DMA0DRLAST
()
,
// DMAC 0 DMA Request Last, input
.
DMA0DRTYPE
()
,
// DMAC 0 DMA Request Type [1:0] ()single/burst/ackn flush/reserved), input
.
DMA0DRREADY
()
,
// DMAC 0 DMA Request Ready, output
.
DMA0DAVALID
()
,
// DMAC 0 DMA Acknowledge Valid (DA_TYPE[1:0] valid), output
.
DMA0DAREADY
()
,
// DMAC 0 DMA Acknowledge (peripheral can accept DA_TYPE[1:0]), input
.
DMA0DATYPE
()
,
// DMAC 0 DMA Ackbowledge TYpe (completed single AXI, completed burst AXI, flush request), output
.
DMA0RSTN
()
,
// DMAC 0 RESET output (reserved, do not use), output
// DMAC 1
.
DMA1ACLK
()
,
// DMAC 1 Clock, input
.
DMA1DRVALID
()
,
// DMAC 1 DMA Request Valid, input
.
DMA1DRLAST
()
,
// DMAC 1 DMA Request Last, input
.
DMA1DRTYPE
()
,
// DMAC 1 DMA Request Type [1:0] ()single/burst/ackn flush/reserved), input
.
DMA1DRREADY
()
,
// DMAC 1 DMA Request Ready, output
.
DMA1DAVALID
()
,
// DMAC 1 DMA Acknowledge Valid (DA_TYPE[1:0] valid), output
.
DMA1DAREADY
()
,
// DMAC 1 DMA Acknowledge (peripheral can accept DA_TYPE[1:0]), input
.
DMA1DATYPE
()
,
// DMAC 1 DMA Ackbowledge TYpe (completed single AXI, completed burst AXI, flush request), output
.
DMA1RSTN
()
,
// DMAC 1 RESET output (reserved, do not use), output
// DMAC 2
.
DMA2ACLK
()
,
// DMAC 2 Clock, input
.
DMA2DRVALID
()
,
// DMAC 2 DMA Request Valid, input
.
DMA2DRLAST
()
,
// DMAC 2 DMA Request Last, input
.
DMA2DRTYPE
()
,
// DMAC 2 DMA Request Type [1:0] ()single/burst/ackn flush/reserved), input
.
DMA2DRREADY
()
,
// DMAC 2 DMA Request Ready, output
.
DMA2DAVALID
()
,
// DMAC 2 DMA Acknowledge Valid (DA_TYPE[1:0] valid), output
.
DMA2DAREADY
()
,
// DMAC 2 DMA Acknowledge (peripheral can accept DA_TYPE[1:0]), input
.
DMA2DATYPE
()
,
// DMAC 2 DMA Ackbowledge TYpe (completed single AXI, completed burst AXI, flush request), output
.
DMA2RSTN
()
,
// DMAC 2 RESET output (reserved, do not use), output
// DMAC 3
.
DMA3ACLK
()
,
// DMAC 3 Clock, input
.
DMA3DRVALID
()
,
// DMAC 3 DMA Request Valid, input
.
DMA3DRLAST
()
,
// DMAC 3 DMA Request Last, input
.
DMA3DRTYPE
()
,
// DMAC 3 DMA Request Type [1:0] ()single/burst/ackn flush/reserved), input
.
DMA3DRREADY
()
,
// DMAC 3 DMA Request Ready, output
.
DMA3DAVALID
()
,
// DMAC 3 DMA Acknowledge Valid (DA_TYPE[1:0] valid), output
.
DMA3DAREADY
()
,
// DMAC 3 DMA Acknowledge (peripheral can accept DA_TYPE[1:0]), input
.
DMA3DATYPE
()
,
// DMAC 3 DMA Ackbowledge TYpe (completed single AXI, completed burst AXI, flush request), output
.
DMA3RSTN
()
,
// DMAC 3 RESET output (reserved, do not use), output
// Interrupt signals
.
IRQF2P
(
{
19'b0
,
irq
}
)
,
// Interrupts, PL to PS [19:0], input
.
IRQP2F
()
,
// Interrupts, PS to PL [28:0], output
// Event Signals
.
EVENTEVENTI
()
,
// EVENT Wake up one or both CPU from WFE state, input
.
EVENTEVENTO
()
,
// EVENT Asserted when one of the COUs executed SEV instruction, output
.
EVENTSTANDBYWFE
()
,
// EVENT CPU standby mode [1:0], asserted when CPU is waiting for an event, output
.
EVENTSTANDBYWFI
()
,
// EVENT CPU standby mode [1:0], asserted when CPU is waiting for an interrupt, output
// PL Resets and clocks
.
FCLKCLK
(
fclk
[
3
:
0
])
,
// PL Clocks [3:0], output
.
FCLKCLKTRIGN
()
,
// PL Clock Throttle Control [3:0], input
.
FCLKRESETN
(
frst
[
3
:
0
])
,
// PL General purpose user reset [3:0], output (active low)
// Debug signals
.
FTMTP2FDEBUG
()
,
// Debug General purpose debug output [31:0], output
.
FTMTF2PDEBUG
()
,
// Debug General purpose debug input [31:0], input
.
FTMTP2FTRIG
()
,
// Debug Trigger PS to PL [3:0], output
.
FTMTP2FTRIGACK
()
,
// Debug Trigger PS to PL acknowledge[3:0], input
.
FTMTF2PTRIG
()
,
// Debug Trigger PL to PS [3:0], input
.
FTMTF2PTRIGACK
()
,
// Debug Trigger PL to PS acknowledge[3:0], output
.
FTMDTRACEINCLOCK
()
,
// Debug Trace PL to PS Clock, input
.
FTMDTRACEINVALID
()
,
// Debug Trace PL to PS Clock, data&id valid, input
.
FTMDTRACEINDATA
()
,
// Debug Trace PL to PS data [31:0], input
.
FTMDTRACEINATID
()
,
// Debug Trace PL to PS ID [3:0], input
// DDR Urgent
.
DDRARB
()
,
// DDR Urgent[3:0], input
// SRAM interrupt (on rising edge)
.
EMIOSRAMINTIN
()
,
// SRAM interrupt #50 shared with NAND busy, input
// AXI interfaces
.
FPGAIDLEN
(
1'b1
)
,
//Idle PL AXI interfaces (active low), input
// AXI PS Master GP0
// AXI PS Master GP0: Clock, Reset
.
MAXIGP0ACLK
(
/*axi_aclk*/
)
,
// AXI PS Master GP0 Clock , input
// .MAXIGP0ACLK(/*fclk[0]*/), // AXI PS Master GP0 Clock , input
// .MAXIGP0ACLK(/*~fclk[0]*/), // AXI PS Master GP0 Clock , input
// .MAXIGP0ACLK(/*axi_naclk*/), // AXI PS Master GP0 Clock , input
//
.
MAXIGP0ARESETN
()
,
// AXI PS Master GP0 Reset, output
// AXI PS Master GP0: Read Address
.
MAXIGP0ARADDR
(
/*axi_araddr[31:0]*/
)
,
// AXI PS Master GP0 ARADDR[31:0], output
.
MAXIGP0ARVALID
(
/*axi_arvalid*/
)
,
// AXI PS Master GP0 ARVALID, output
.
MAXIGP0ARREADY
(
/*axi_arready*/
)
,
// AXI PS Master GP0 ARREADY, input
.
MAXIGP0ARID
(
/*axi_arid[11:0]*/
)
,
// AXI PS Master GP0 ARID[11:0], output
.
MAXIGP0ARLOCK
()
,
// AXI PS Master GP0 ARLOCK[1:0], output
.
MAXIGP0ARCACHE
()
,
// AXI PS Master GP0 ARCACHE[3:0], output
.
MAXIGP0ARPROT
()
,
// AXI PS Master GP0 ARPROT[2:0], output
.
MAXIGP0ARLEN
(
/*axi_arlen[3:0]*/
)
,
// AXI PS Master GP0 ARLEN[3:0], output
.
MAXIGP0ARSIZE
(
/*axi_arsize[1:0]*/
)
,
// AXI PS Master GP0 ARSIZE[1:0], output
.
MAXIGP0ARBURST
(
/*axi_arburst[1:0]*/
)
,
// AXI PS Master GP0 ARBURST[1:0], output
.
MAXIGP0ARQOS
()
,
// AXI PS Master GP0 ARQOS[3:0], output
// AXI PS Master GP0: Read Data
.
MAXIGP0RDATA
(
/*axi_rdata[31:0]*/
)
,
// AXI PS Master GP0 RDATA[31:0], input
.
MAXIGP0RVALID
(
/*axi_rvalid*/
)
,
// AXI PS Master GP0 RVALID, input
.
MAXIGP0RREADY
(
/*axi_rready*/
)
,
// AXI PS Master GP0 RREADY, output
.
MAXIGP0RID
(
/*axi_rid[11:0]*/
)
,
// AXI PS Master GP0 RID[11:0], input
.
MAXIGP0RLAST
(
/*axi_rlast*/
)
,
// AXI PS Master GP0 RLAST, input
.
MAXIGP0RRESP
(
/*axi_rresp[1:0]*/
)
,
// AXI PS Master GP0 RRESP[1:0], input
// AXI PS Master GP0: Write Address
.
MAXIGP0AWADDR
(
/*axi_awaddr[31:0]*/
)
,
// AXI PS Master GP0 AWADDR[31:0], output
.
MAXIGP0AWVALID
(
/*axi_awvalid*/
)
,
// AXI PS Master GP0 AWVALID, output
.
MAXIGP0AWREADY
(
/*axi_awready*/
)
,
// AXI PS Master GP0 AWREADY, input
.
MAXIGP0AWID
(
/*axi_awid[11:0]*/
)
,
// AXI PS Master GP0 AWID[11:0], output
.
MAXIGP0AWLOCK
()
,
// AXI PS Master GP0 AWLOCK[1:0], output
.
MAXIGP0AWCACHE
()
,
// AXI PS Master GP0 AWCACHE[3:0], output
.
MAXIGP0AWPROT
()
,
// AXI PS Master GP0 AWPROT[2:0], output
.
MAXIGP0AWLEN
(
/*axi_awlen[3:0]*/
)
,
// AXI PS Master GP0 AWLEN[3:0], output
.
MAXIGP0AWSIZE
(
/*axi_awsize[1:0]*/
)
,
// AXI PS Master GP0 AWSIZE[1:0], output
.
MAXIGP0AWBURST
(
/*axi_awburst[1:0]*/
)
,
// AXI PS Master GP0 AWBURST[1:0], output
.
MAXIGP0AWQOS
()
,
// AXI PS Master GP0 AWQOS[3:0], output
// AXI PS Master GP0: Write Data
.
MAXIGP0WDATA
(
/*axi_wdata[31:0]*/
)
,
// AXI PS Master GP0 WDATA[31:0], output
.
MAXIGP0WVALID
(
/*axi_wvalid*/
)
,
// AXI PS Master GP0 WVALID, output
.
MAXIGP0WREADY
(
/*axi_wready*/
)
,
// AXI PS Master GP0 WREADY, input
.
MAXIGP0WID
(
/*axi_wid[11:0]*/
)
,
// AXI PS Master GP0 WID[11:0], output
.
MAXIGP0WLAST
(
/*axi_wlast*/
)
,
// AXI PS Master GP0 WLAST, output
.
MAXIGP0WSTRB
(
/*axi_wstb[3:0]*/
)
,
// AXI PS Master GP0 WSTRB[3:0], output
// AXI PS Master GP0: Write response
.
MAXIGP0BVALID
(
/*axi_bvalid*/
)
,
// AXI PS Master GP0 BVALID, input
.
MAXIGP0BREADY
(
/*axi_bready*/
)
,
// AXI PS Master GP0 BREADY, output
.
MAXIGP0BID
(
/*axi_bid[11:0]*/
)
,
// AXI PS Master GP0 BID[11:0], input
.
MAXIGP0BRESP
(
/*axi_bresp[1:0]*/
)
,
// AXI PS Master GP0 BRESP[1:0], input
// AXI PS Master GP1
// AXI PS Master GP1: Clock, Reset
.
MAXIGP1ACLK
(
axi_aclk0
)
,
// AXI PS Master GP1 Clock , input
.
MAXIGP1ARESETN
()
,
// AXI PS Master GP1 Reset, output
// AXI PS Master GP1: Read Address
.
MAXIGP1ARADDR
(
maxi1_araddr
)
,
// AXI PS Master GP1 ARADDR[31:0], output
.
MAXIGP1ARVALID
(
maxi1_arvalid
)
,
// AXI PS Master GP1 ARVALID, output
.
MAXIGP1ARREADY
(
maxi1_arready
)
,
// AXI PS Master GP1 ARREADY, input
.
MAXIGP1ARID
(
maxi1_arid
)
,
// AXI PS Master GP1 ARID[11:0], output
.
MAXIGP1ARLOCK
()
,
// AXI PS Master GP1 ARLOCK[1:0], output
.
MAXIGP1ARCACHE
()
,
// AXI PS Master GP1 ARCACHE[3:0], output
.
MAXIGP1ARPROT
()
,
// AXI PS Master GP1 ARPROT[2:0], output
.
MAXIGP1ARLEN
(
maxi1_arlen
)
,
// AXI PS Master GP1 ARLEN[3:0], output
.
MAXIGP1ARSIZE
(
maxi1_arsize
)
,
// AXI PS Master GP1 ARSIZE[1:0], output
.
MAXIGP1ARBURST
(
maxi1_arburst
)
,
// AXI PS Master GP1 ARBURST[1:0], output
.
MAXIGP1ARQOS
()
,
// AXI PS Master GP1 ARQOS[3:0], output
// AXI PS Master GP1: Read Data
.
MAXIGP1RDATA
(
maxi1_rdata
)
,
// AXI PS Master GP1 RDATA[31:0], input
.
MAXIGP1RVALID
(
maxi1_rvalid
)
,
// AXI PS Master GP1 RVALID, input
.
MAXIGP1RREADY
(
maxi1_rready
)
,
// AXI PS Master GP1 RREADY, output
.
MAXIGP1RID
(
maxi1_rid
)
,
// AXI PS Master GP1 RID[11:0], input
.
MAXIGP1RLAST
(
maxi1_rlast
)
,
// AXI PS Master GP1 RLAST, input
.
MAXIGP1RRESP
(
maxi1_rresp
)
,
// AXI PS Master GP1 RRESP[1:0], input
// AXI PS Master GP1: Write Address
.
MAXIGP1AWADDR
(
maxi1_awaddr
)
,
// AXI PS Master GP1 AWADDR[31:0], output
.
MAXIGP1AWVALID
(
maxi1_awvalid
)
,
// AXI PS Master GP1 AWVALID, output
.
MAXIGP1AWREADY
(
maxi1_awready
)
,
// AXI PS Master GP1 AWREADY, input
.
MAXIGP1AWID
(
maxi1_awid
)
,
// AXI PS Master GP1 AWID[11:0], output
.
MAXIGP1AWLOCK
()
,
// AXI PS Master GP1 AWLOCK[1:0], output
.
MAXIGP1AWCACHE
()
,
// AXI PS Master GP1 AWCACHE[3:0], output
.
MAXIGP1AWPROT
()
,
// AXI PS Master GP1 AWPROT[2:0], output
.
MAXIGP1AWLEN
(
maxi1_awlen
)
,
// AXI PS Master GP1 AWLEN[3:0], output
.
MAXIGP1AWSIZE
(
maxi1_awsize
)
,
// AXI PS Master GP1 AWSIZE[1:0], output
.
MAXIGP1AWBURST
(
maxi1_awburst
)
,
// AXI PS Master GP1 AWBURST[1:0], output
.
MAXIGP1AWQOS
()
,
// AXI PS Master GP1 AWQOS[3:0], output
// AXI PS Master GP1: Write Data
.
MAXIGP1WDATA
(
maxi1_wdata
)
,
// AXI PS Master GP1 WDATA[31:0], output
.
MAXIGP1WVALID
(
maxi1_wvalid
)
,
// AXI PS Master GP1 WVALID, output
.
MAXIGP1WREADY
(
maxi1_wready
)
,
// AXI PS Master GP1 WREADY, input
.
MAXIGP1WID
(
maxi1_wid
)
,
// AXI PS Master GP1 WID[11:0], output
.
MAXIGP1WLAST
(
maxi1_wlast
)
,
// AXI PS Master GP1 WLAST, output
.
MAXIGP1WSTRB
(
maxi1_wstb
)
,
// AXI PS Master GP1 maxi1_wstb[3:0], output
// AXI PS Master GP1: Write response
.
MAXIGP1BVALID
(
maxi1_bvalid
)
,
// AXI PS Master GP1 BVALID, input
.
MAXIGP1BREADY
(
maxi1_bready
)
,
// AXI PS Master GP1 BREADY, output
.
MAXIGP1BID
(
maxi1_bid
)
,
// AXI PS Master GP1 BID[11:0], input
.
MAXIGP1BRESP
(
maxi1_bresp
)
,
// AXI PS Master GP1 BRESP[1:0], input
// AXI PS Slave GP0
// AXI PS Slave GP0: Clock, Reset
.
SAXIGP0ACLK
()
,
// AXI PS Slave GP0 Clock , input
.
SAXIGP0ARESETN
()
,
// AXI PS Slave GP0 Reset, output
// AXI PS Slave GP0: Read Address
.
SAXIGP0ARADDR
()
,
// AXI PS Slave GP0 ARADDR[31:0], input
.
SAXIGP0ARVALID
()
,
// AXI PS Slave GP0 ARVALID, input
.
SAXIGP0ARREADY
()
,
// AXI PS Slave GP0 ARREADY, output
.
SAXIGP0ARID
()
,
// AXI PS Slave GP0 ARID[5:0], input
.
SAXIGP0ARLOCK
()
,
// AXI PS Slave GP0 ARLOCK[1:0], input
.
SAXIGP0ARCACHE
()
,
// AXI PS Slave GP0 ARCACHE[3:0], input
.
SAXIGP0ARPROT
()
,
// AXI PS Slave GP0 ARPROT[2:0], input
.
SAXIGP0ARLEN
()
,
// AXI PS Slave GP0 ARLEN[3:0], input
.
SAXIGP0ARSIZE
()
,
// AXI PS Slave GP0 ARSIZE[1:0], input
.
SAXIGP0ARBURST
()
,
// AXI PS Slave GP0 ARBURST[1:0], input
.
SAXIGP0ARQOS
()
,
// AXI PS Slave GP0 ARQOS[3:0], input
// AXI PS Slave GP0: Read Data
.
SAXIGP0RDATA
()
,
// AXI PS Slave GP0 RDATA[31:0], output
.
SAXIGP0RVALID
()
,
// AXI PS Slave GP0 RVALID, output
.
SAXIGP0RREADY
()
,
// AXI PS Slave GP0 RREADY, input
.
SAXIGP0RID
()
,
// AXI PS Slave GP0 RID[5:0], output
.
SAXIGP0RLAST
()
,
// AXI PS Slave GP0 RLAST, output
.
SAXIGP0RRESP
()
,
// AXI PS Slave GP0 RRESP[1:0], output
// AXI PS Slave GP0: Write Address
.
SAXIGP0AWADDR
()
,
// AXI PS Slave GP0 AWADDR[31:0], input
.
SAXIGP0AWVALID
()
,
// AXI PS Slave GP0 AWVALID, input
.
SAXIGP0AWREADY
()
,
// AXI PS Slave GP0 AWREADY, output
.
SAXIGP0AWID
()
,
// AXI PS Slave GP0 AWID[5:0], input
.
SAXIGP0AWLOCK
()
,
// AXI PS Slave GP0 AWLOCK[1:0], input
.
SAXIGP0AWCACHE
()
,
// AXI PS Slave GP0 AWCACHE[3:0], input
.
SAXIGP0AWPROT
()
,
// AXI PS Slave GP0 AWPROT[2:0], input
.
SAXIGP0AWLEN
()
,
// AXI PS Slave GP0 AWLEN[3:0], input
.
SAXIGP0AWSIZE
()
,
// AXI PS Slave GP0 AWSIZE[1:0], input
.
SAXIGP0AWBURST
()
,
// AXI PS Slave GP0 AWBURST[1:0], input
.
SAXIGP0AWQOS
()
,
// AXI PS Slave GP0 AWQOS[3:0], input
// AXI PS Slave GP0: Write Data
.
SAXIGP0WDATA
()
,
// AXI PS Slave GP0 WDATA[31:0], input
.
SAXIGP0WVALID
()
,
// AXI PS Slave GP0 WVALID, input
.
SAXIGP0WREADY
()
,
// AXI PS Slave GP0 WREADY, output
.
SAXIGP0WID
()
,
// AXI PS Slave GP0 WID[5:0], input
.
SAXIGP0WLAST
()
,
// AXI PS Slave GP0 WLAST, input
.
SAXIGP0WSTRB
()
,
// AXI PS Slave GP0 WSTRB[3:0], input
// AXI PS Slave GP0: Write response
.
SAXIGP0BVALID
()
,
// AXI PS Slave GP0 BVALID, output
.
SAXIGP0BREADY
()
,
// AXI PS Slave GP0 BREADY, input
.
SAXIGP0BID
()
,
// AXI PS Slave GP0 BID[5:0], output //TODO: Update range !!!
.
SAXIGP0BRESP
()
,
// AXI PS Slave GP0 BRESP[1:0], output
// AXI PS Slave GP1
// AXI PS Slave GP1: Clock, Reset
.
SAXIGP1ACLK
()
,
// AXI PS Slave GP1 Clock , input
.
SAXIGP1ARESETN
()
,
// AXI PS Slave GP1 Reset, output
// AXI PS Slave GP1: Read Address
.
SAXIGP1ARADDR
()
,
// AXI PS Slave GP1 ARADDR[31:0], input
.
SAXIGP1ARVALID
()
,
// AXI PS Slave GP1 ARVALID, input
.
SAXIGP1ARREADY
()
,
// AXI PS Slave GP1 ARREADY, output
.
SAXIGP1ARID
()
,
// AXI PS Slave GP1 ARID[5:0], input
.
SAXIGP1ARLOCK
()
,
// AXI PS Slave GP1 ARLOCK[1:0], input
.
SAXIGP1ARCACHE
()
,
// AXI PS Slave GP1 ARCACHE[3:0], input
.
SAXIGP1ARPROT
()
,
// AXI PS Slave GP1 ARPROT[2:0], input
.
SAXIGP1ARLEN
()
,
// AXI PS Slave GP1 ARLEN[3:0], input
.
SAXIGP1ARSIZE
()
,
// AXI PS Slave GP1 ARSIZE[1:0], input
.
SAXIGP1ARBURST
()
,
// AXI PS Slave GP1 ARBURST[1:0], input
.
SAXIGP1ARQOS
()
,
// AXI PS Slave GP1 ARQOS[3:0], input
// AXI PS Slave GP1: Read Data
.
SAXIGP1RDATA
()
,
// AXI PS Slave GP1 RDATA[31:0], output
.
SAXIGP1RVALID
()
,
// AXI PS Slave GP1 RVALID, output
.
SAXIGP1RREADY
()
,
// AXI PS Slave GP1 RREADY, input
.
SAXIGP1RID
()
,
// AXI PS Slave GP1 RID[5:0], output
.
SAXIGP1RLAST
()
,
// AXI PS Slave GP1 RLAST, output
.
SAXIGP1RRESP
()
,
// AXI PS Slave GP1 RRESP[1:0], output
// AXI PS Slave GP1: Write Address
.
SAXIGP1AWADDR
()
,
// AXI PS Slave GP1 AWADDR[31:0], input
.
SAXIGP1AWVALID
()
,
// AXI PS Slave GP1 AWVALID, input
.
SAXIGP1AWREADY
()
,
// AXI PS Slave GP1 AWREADY, output
.
SAXIGP1AWID
()
,
// AXI PS Slave GP1 AWID[5:0], input
.
SAXIGP1AWLOCK
()
,
// AXI PS Slave GP1 AWLOCK[1:0], input
.
SAXIGP1AWCACHE
()
,
// AXI PS Slave GP1 AWCACHE[3:0], input
.
SAXIGP1AWPROT
()
,
// AXI PS Slave GP1 AWPROT[2:0], input
.
SAXIGP1AWLEN
()
,
// AXI PS Slave GP1 AWLEN[3:0], input
.
SAXIGP1AWSIZE
()
,
// AXI PS Slave GP1 AWSIZE[1:0], input
.
SAXIGP1AWBURST
()
,
// AXI PS Slave GP1 AWBURST[1:0], input
.
SAXIGP1AWQOS
()
,
// AXI PS Slave GP1 AWQOS[3:0], input
// AXI PS Slave GP1: Write Data
.
SAXIGP1WDATA
()
,
// AXI PS Slave GP1 WDATA[31:0], input
.
SAXIGP1WVALID
()
,
// AXI PS Slave GP1 WVALID, input
.
SAXIGP1WREADY
()
,
// AXI PS Slave GP1 WREADY, output
.
SAXIGP1WID
()
,
// AXI PS Slave GP1 WID[5:0], input
.
SAXIGP1WLAST
()
,
// AXI PS Slave GP1 WLAST, input
.
SAXIGP1WSTRB
()
,
// AXI PS Slave GP1 WSTRB[3:0], input
// AXI PS Slave GP1: Write response
.
SAXIGP1BVALID
()
,
// AXI PS Slave GP1 BVALID, output
.
SAXIGP1BREADY
()
,
// AXI PS Slave GP1 BREADY, input
.
SAXIGP1BID
()
,
// AXI PS Slave GP1 BID[5:0], output
.
SAXIGP1BRESP
()
,
// AXI PS Slave GP1 BRESP[1:0], output
// AXI PS Slave HP0
// AXI PS Slave HP0: Clock, Reset
.
SAXIHP0ACLK
()
,
// AXI PS Slave HP0 Clock , input
.
SAXIHP0ARESETN
()
,
// AXI PS Slave HP0 Reset, output
// AXI PS Slave HP0: Read Address
.
SAXIHP0ARADDR
()
,
// AXI PS Slave HP0 ARADDR[31:0], input
.
SAXIHP0ARVALID
()
,
// AXI PS Slave HP0 ARVALID, input
.
SAXIHP0ARREADY
()
,
// AXI PS Slave HP0 ARREADY, output
.
SAXIHP0ARID
()
,
// AXI PS Slave HP0 ARID[5:0], input
.
SAXIHP0ARLOCK
()
,
// AXI PS Slave HP0 ARLOCK[1:0], input
.
SAXIHP0ARCACHE
()
,
// AXI PS Slave HP0 ARCACHE[3:0], input
.
SAXIHP0ARPROT
()
,
// AXI PS Slave HP0 ARPROT[2:0], input
.
SAXIHP0ARLEN
()
,
// AXI PS Slave HP0 ARLEN[3:0], input
.
SAXIHP0ARSIZE
()
,
// AXI PS Slave HP0 ARSIZE[2:0], input
.
SAXIHP0ARBURST
()
,
// AXI PS Slave HP0 ARBURST[1:0], input
.
SAXIHP0ARQOS
()
,
// AXI PS Slave HP0 ARQOS[3:0], input
// AXI PS Slave HP0: Read Data
.
SAXIHP0RDATA
()
,
// AXI PS Slave HP0 RDATA[63:0], output
.
SAXIHP0RVALID
()
,
// AXI PS Slave HP0 RVALID, output
.
SAXIHP0RREADY
()
,
// AXI PS Slave HP0 RREADY, input
.
SAXIHP0RID
()
,
// AXI PS Slave HP0 RID[5:0], output
.
SAXIHP0RLAST
()
,
// AXI PS Slave HP0 RLAST, output
.
SAXIHP0RRESP
()
,
// AXI PS Slave HP0 RRESP[1:0], output
.
SAXIHP0RCOUNT
()
,
// AXI PS Slave HP0 RCOUNT[7:0], output
.
SAXIHP0RACOUNT
()
,
// AXI PS Slave HP0 RACOUNT[2:0], output
.
SAXIHP0RDISSUECAP1EN
()
,
// AXI PS Slave HP0 RDISSUECAP1EN, input
// AXI PS Slave HP0: Write Address
.
SAXIHP0AWADDR
()
,
// AXI PS Slave HP0 AWADDR[31:0], input
.
SAXIHP0AWVALID
()
,
// AXI PS Slave HP0 AWVALID, input
.
SAXIHP0AWREADY
()
,
// AXI PS Slave HP0 AWREADY, output
.
SAXIHP0AWID
()
,
// AXI PS Slave HP0 AWID[5:0], input
.
SAXIHP0AWLOCK
()
,
// AXI PS Slave HP0 AWLOCK[1:0], input
.
SAXIHP0AWCACHE
()
,
// AXI PS Slave HP0 AWCACHE[3:0], input
.
SAXIHP0AWPROT
()
,
// AXI PS Slave HP0 AWPROT[2:0], input
.
SAXIHP0AWLEN
()
,
// AXI PS Slave HP0 AWLEN[3:0], input
.
SAXIHP0AWSIZE
()
,
// AXI PS Slave HP0 AWSIZE[1:0], input
.
SAXIHP0AWBURST
()
,
// AXI PS Slave HP0 AWBURST[1:0], input
.
SAXIHP0AWQOS
()
,
// AXI PS Slave HP0 AWQOS[3:0], input
// AXI PS Slave HP0: Write Data
.
SAXIHP0WDATA
()
,
// AXI PS Slave HP0 WDATA[63:0], input
.
SAXIHP0WVALID
()
,
// AXI PS Slave HP0 WVALID, input
.
SAXIHP0WREADY
()
,
// AXI PS Slave HP0 WREADY, output
.
SAXIHP0WID
()
,
// AXI PS Slave HP0 WID[5:0], input
.
SAXIHP0WLAST
()
,
// AXI PS Slave HP0 WLAST, input
.
SAXIHP0WSTRB
()
,
// AXI PS Slave HP0 WSTRB[7:0], input
.
SAXIHP0WCOUNT
()
,
// AXI PS Slave HP0 WCOUNT[7:0], output
.
SAXIHP0WACOUNT
()
,
// AXI PS Slave HP0 WACOUNT[5:0], output
.
SAXIHP0WRISSUECAP1EN
()
,
// AXI PS Slave HP0 WRISSUECAP1EN, input
// AXI PS Slave HP0: Write response
.
SAXIHP0BVALID
()
,
// AXI PS Slave HP0 BVALID, output
.
SAXIHP0BREADY
()
,
// AXI PS Slave HP0 BREADY, input
.
SAXIHP0BID
()
,
// AXI PS Slave HP0 BID[5:0], output
.
SAXIHP0BRESP
()
,
// AXI PS Slave HP0 BRESP[1:0], output
// AXI PS Slave HP1
// AXI PS Slave 1: Clock, Reset
.
SAXIHP1ACLK
()
,
// AXI PS Slave HP1 Clock , input
.
SAXIHP1ARESETN
()
,
// AXI PS Slave HP1 Reset, output
// AXI PS Slave HP1: Read Address
.
SAXIHP1ARADDR
()
,
// AXI PS Slave HP1 ARADDR[31:0], input
.
SAXIHP1ARVALID
()
,
// AXI PS Slave HP1 ARVALID, input
.
SAXIHP1ARREADY
()
,
// AXI PS Slave HP1 ARREADY, output
.
SAXIHP1ARID
()
,
// AXI PS Slave HP1 ARID[5:0], input
.
SAXIHP1ARLOCK
()
,
// AXI PS Slave HP1 ARLOCK[1:0], input
.
SAXIHP1ARCACHE
()
,
// AXI PS Slave HP1 ARCACHE[3:0], input
.
SAXIHP1ARPROT
()
,
// AXI PS Slave HP1 ARPROT[2:0], input
.
SAXIHP1ARLEN
()
,
// AXI PS Slave HP1 ARLEN[3:0], input
.
SAXIHP1ARSIZE
()
,
// AXI PS Slave HP1 ARSIZE[2:0], input
.
SAXIHP1ARBURST
()
,
// AXI PS Slave HP1 ARBURST[1:0], input
.
SAXIHP1ARQOS
()
,
// AXI PS Slave HP1 ARQOS[3:0], input
// AXI PS Slave HP1: Read Data
.
SAXIHP1RDATA
()
,
// AXI PS Slave HP1 RDATA[63:0], output
.
SAXIHP1RVALID
()
,
// AXI PS Slave HP1 RVALID, output
.
SAXIHP1RREADY
()
,
// AXI PS Slave HP1 RREADY, input
.
SAXIHP1RID
()
,
// AXI PS Slave HP1 RID[5:0], output
.
SAXIHP1RLAST
()
,
// AXI PS Slave HP1 RLAST, output
.
SAXIHP1RRESP
()
,
// AXI PS Slave HP1 RRESP[1:0], output
.
SAXIHP1RCOUNT
()
,
// AXI PS Slave HP1 RCOUNT[7:0], output
.
SAXIHP1RACOUNT
()
,
// AXI PS Slave HP1 RACOUNT[2:0], output
.
SAXIHP1RDISSUECAP1EN
()
,
// AXI PS Slave HP1 RDISSUECAP1EN, input
// AXI PS Slave HP1: Write Address
.
SAXIHP1AWADDR
()
,
// AXI PS Slave HP1 AWADDR[31:0], input
.
SAXIHP1AWVALID
()
,
// AXI PS Slave HP1 AWVALID, input
.
SAXIHP1AWREADY
()
,
// AXI PS Slave HP1 AWREADY, output
.
SAXIHP1AWID
()
,
// AXI PS Slave HP1 AWID[5:0], input
.
SAXIHP1AWLOCK
()
,
// AXI PS Slave HP1 AWLOCK[1:0], input
.
SAXIHP1AWCACHE
()
,
// AXI PS Slave HP1 AWCACHE[3:0], input
.
SAXIHP1AWPROT
()
,
// AXI PS Slave HP1 AWPROT[2:0], input
.
SAXIHP1AWLEN
()
,
// AXI PS Slave HP1 AWLEN[3:0], input
.
SAXIHP1AWSIZE
()
,
// AXI PS Slave HP1 AWSIZE[1:0], input
.
SAXIHP1AWBURST
()
,
// AXI PS Slave HP1 AWBURST[1:0], input
.
SAXIHP1AWQOS
()
,
// AXI PS Slave HP1 AWQOS[3:0], input
// AXI PS Slave HP1: Write Data
.
SAXIHP1WDATA
()
,
// AXI PS Slave HP1 WDATA[63:0], input
.
SAXIHP1WVALID
()
,
// AXI PS Slave HP1 WVALID, input
.
SAXIHP1WREADY
()
,
// AXI PS Slave HP1 WREADY, output
.
SAXIHP1WID
()
,
// AXI PS Slave HP1 WID[5:0], input
.
SAXIHP1WLAST
()
,
// AXI PS Slave HP1 WLAST, input
.
SAXIHP1WSTRB
()
,
// AXI PS Slave HP1 WSTRB[7:0], input
.
SAXIHP1WCOUNT
()
,
// AXI PS Slave HP1 WCOUNT[7:0], output
.
SAXIHP1WACOUNT
()
,
// AXI PS Slave HP1 WACOUNT[5:0], output
.
SAXIHP1WRISSUECAP1EN
()
,
// AXI PS Slave HP1 WRISSUECAP1EN, input
// AXI PS Slave HP1: Write response
.
SAXIHP1BVALID
()
,
// AXI PS Slave HP1 BVALID, output
.
SAXIHP1BREADY
()
,
// AXI PS Slave HP1 BREADY, input
.
SAXIHP1BID
()
,
// AXI PS Slave HP1 BID[5:0], output
.
SAXIHP1BRESP
()
,
// AXI PS Slave HP1 BRESP[1:0], output
// AXI PS Slave HP2
// AXI PS Slave HP2: Clock, Reset
.
SAXIHP2ACLK
()
,
// AXI PS Slave HP2 Clock , input
.
SAXIHP2ARESETN
()
,
// AXI PS Slave HP2 Reset, output
// AXI PS Slave HP2: Read Address
.
SAXIHP2ARADDR
()
,
// AXI PS Slave HP2 ARADDR[31:0], input
.
SAXIHP2ARVALID
()
,
// AXI PS Slave HP2 ARVALID, input
.
SAXIHP2ARREADY
()
,
// AXI PS Slave HP2 ARREADY, output
.
SAXIHP2ARID
()
,
// AXI PS Slave HP2 ARID[5:0], input
.
SAXIHP2ARLOCK
()
,
// AXI PS Slave HP2 ARLOCK[1:0], input
.
SAXIHP2ARCACHE
()
,
// AXI PS Slave HP2 ARCACHE[3:0], input
.
SAXIHP2ARPROT
()
,
// AXI PS Slave HP2 ARPROT[2:0], input
.
SAXIHP2ARLEN
()
,
// AXI PS Slave HP2 ARLEN[3:0], input
.
SAXIHP2ARSIZE
()
,
// AXI PS Slave HP2 ARSIZE[2:0], input
.
SAXIHP2ARBURST
()
,
// AXI PS Slave HP2 ARBURST[1:0], input
.
SAXIHP2ARQOS
()
,
// AXI PS Slave HP2 ARQOS[3:0], input
// AXI PS Slave HP2: Read Data
.
SAXIHP2RDATA
()
,
// AXI PS Slave HP2 RDATA[63:0], output
.
SAXIHP2RVALID
()
,
// AXI PS Slave HP2 RVALID, output
.
SAXIHP2RREADY
()
,
// AXI PS Slave HP2 RREADY, input
.
SAXIHP2RID
()
,
// AXI PS Slave HP2 RID[5:0], output
.
SAXIHP2RLAST
()
,
// AXI PS Slave HP2 RLAST, output
.
SAXIHP2RRESP
()
,
// AXI PS Slave HP2 RRESP[1:0], output
.
SAXIHP2RCOUNT
()
,
// AXI PS Slave HP2 RCOUNT[7:0], output
.
SAXIHP2RACOUNT
()
,
// AXI PS Slave HP2 RACOUNT[2:0], output
.
SAXIHP2RDISSUECAP1EN
()
,
// AXI PS Slave HP2 RDISSUECAP1EN, input
// AXI PS Slave HP2: Write Address
.
SAXIHP2AWADDR
()
,
// AXI PS Slave HP2 AWADDR[31:0], input
.
SAXIHP2AWVALID
()
,
// AXI PS Slave HP2 AWVALID, input
.
SAXIHP2AWREADY
()
,
// AXI PS Slave HP2 AWREADY, output
.
SAXIHP2AWID
()
,
// AXI PS Slave HP2 AWID[5:0], input
.
SAXIHP2AWLOCK
()
,
// AXI PS Slave HP2 AWLOCK[1:0], input
.
SAXIHP2AWCACHE
()
,
// AXI PS Slave HP2 AWCACHE[3:0], input
.
SAXIHP2AWPROT
()
,
// AXI PS Slave HP2 AWPROT[2:0], input
.
SAXIHP2AWLEN
()
,
// AXI PS Slave HP2 AWLEN[3:0], input
.
SAXIHP2AWSIZE
()
,
// AXI PS Slave HP2 AWSIZE[1:0], input
.
SAXIHP2AWBURST
()
,
// AXI PS Slave HP2 AWBURST[1:0], input
.
SAXIHP2AWQOS
()
,
// AXI PS Slave HP2 AWQOS[3:0], input
// AXI PS Slave HP2: Write Data
.
SAXIHP2WDATA
()
,
// AXI PS Slave HP2 WDATA[63:0], input
.
SAXIHP2WVALID
()
,
// AXI PS Slave HP2 WVALID, input
.
SAXIHP2WREADY
()
,
// AXI PS Slave HP2 WREADY, output
.
SAXIHP2WID
()
,
// AXI PS Slave HP2 WID[5:0], input
.
SAXIHP2WLAST
()
,
// AXI PS Slave HP2 WLAST, input
.
SAXIHP2WSTRB
()
,
// AXI PS Slave HP2 WSTRB[7:0], input
.
SAXIHP2WCOUNT
()
,
// AXI PS Slave HP2 WCOUNT[7:0], output
.
SAXIHP2WACOUNT
()
,
// AXI PS Slave HP2 WACOUNT[5:0], output
.
SAXIHP2WRISSUECAP1EN
()
,
// AXI PS Slave HP2 WRISSUECAP1EN, input
// AXI PS Slave HP2: Write response
.
SAXIHP2BVALID
()
,
// AXI PS Slave HP2 BVALID, output
.
SAXIHP2BREADY
()
,
// AXI PS Slave HP2 BREADY, input
.
SAXIHP2BID
()
,
// AXI PS Slave HP2 BID[5:0], output
.
SAXIHP2BRESP
()
,
// AXI PS Slave HP2 BRESP[1:0], output
// AXI PS Slave HP3
// AXI PS Slave HP3: Clock, Reset
.
SAXIHP3ACLK
(
hclk
)
,
// AXI PS Slave HP3 Clock , input
.
SAXIHP3ARESETN
()
,
// AXI PS Slave HP3 Reset, output
// AXI PS Slave HP3: Read Address
.
SAXIHP3ARADDR
(
afi3_araddr
)
,
// AXI PS Slave HP3 ARADDR[31:0], input
.
SAXIHP3ARVALID
(
afi3_arvalid
)
,
// AXI PS Slave HP3 ARVALID, input
.
SAXIHP3ARREADY
(
afi3_arready
)
,
// AXI PS Slave HP3 ARREADY, output
.
SAXIHP3ARID
(
afi3_arid
)
,
// AXI PS Slave HP3 ARID[5:0], input
.
SAXIHP3ARLOCK
(
afi3_arlock
)
,
// AXI PS Slave HP3 ARLOCK[1:0], input
.
SAXIHP3ARCACHE
(
afi3_arcache
)
,
// AXI PS Slave HP3 ARCACHE[3:0], input
.
SAXIHP3ARPROT
(
afi3_arprot
)
,
// AXI PS Slave HP3 ARPROT[2:0], input
.
SAXIHP3ARLEN
(
afi3_arlen
)
,
// AXI PS Slave HP3 ARLEN[3:0], input
.
SAXIHP3ARSIZE
(
afi3_arsize
)
,
// AXI PS Slave HP3 ARSIZE[2:0], input
.
SAXIHP3ARBURST
(
afi3_arburst
)
,
// AXI PS Slave HP3 ARBURST[1:0], input
.
SAXIHP3ARQOS
(
afi3_arqos
)
,
// AXI PS Slave HP3 ARQOS[3:0], input
// AXI PS Slave HP3: Read Data
.
SAXIHP3RDATA
(
afi3_rdata
)
,
// AXI PS Slave HP3 RDATA[63:0], output
.
SAXIHP3RVALID
(
afi3_rvalid
)
,
// AXI PS Slave HP3 RVALID, output
.
SAXIHP3RREADY
(
afi3_rready
)
,
// AXI PS Slave HP3 RREADY, input
.
SAXIHP3RID
(
afi3_rid
)
,
// AXI PS Slave HP3 RID[5:0], output
.
SAXIHP3RLAST
(
afi3_rlast
)
,
// AXI PS Slave HP3 RLAST, output
.
SAXIHP3RRESP
(
afi3_rresp
)
,
// AXI PS Slave HP3 RRESP[1:0], output
.
SAXIHP3RCOUNT
(
afi3_rcount
)
,
// AXI PS Slave HP3 RCOUNT[7:0], output
.
SAXIHP3RACOUNT
(
afi3_racount
)
,
// AXI PS Slave HP3 RACOUNT[2:0], output
.
SAXIHP3RDISSUECAP1EN
(
afi3_rdissuecap1en
)
,
// AXI PS Slave HP3 RDISSUECAP1EN, input
// AXI PS Slave HP3: Write Address
.
SAXIHP3AWADDR
(
afi3_awaddr
)
,
// AXI PS Slave HP3 AWADDR[31:0], input
.
SAXIHP3AWVALID
(
afi3_awvalid
)
,
// AXI PS Slave HP3 AWVALID, input
.
SAXIHP3AWREADY
(
afi3_awready
)
,
// AXI PS Slave HP3 AWREADY, output
.
SAXIHP3AWID
(
afi3_awid
)
,
// AXI PS Slave HP3 AWID[5:0], input
.
SAXIHP3AWLOCK
(
afi3_awlock
)
,
// AXI PS Slave HP3 AWLOCK[1:0], input
.
SAXIHP3AWCACHE
(
afi3_awcache
)
,
// AXI PS Slave HP3 AWCACHE[3:0], input
.
SAXIHP3AWPROT
(
afi3_awprot
)
,
// AXI PS Slave HP3 AWPROT[2:0], input
.
SAXIHP3AWLEN
(
afi3_awlen
)
,
// AXI PS Slave HP3 AWLEN[3:0], input
.
SAXIHP3AWSIZE
(
afi3_awsize
)
,
// AXI PS Slave HP3 AWSIZE[1:0], input
.
SAXIHP3AWBURST
(
afi3_awburst
)
,
// AXI PS Slave HP3 AWBURST[1:0], input
.
SAXIHP3AWQOS
(
afi3_awqos
)
,
// AXI PS Slave HP3 AWQOS[3:0], input
// AXI PS Slave HP3: Write Data
.
SAXIHP3WDATA
(
afi3_wdata
)
,
// AXI PS Slave HP3 WDATA[63:0], input
.
SAXIHP3WVALID
(
afi3_wvalid
)
,
// AXI PS Slave HP3 WVALID, input
.
SAXIHP3WREADY
(
afi3_wready
)
,
// AXI PS Slave HP3 WREADY, output
.
SAXIHP3WID
(
afi3_wid
)
,
// AXI PS Slave HP3 WID[5:0], input
.
SAXIHP3WLAST
(
afi3_wlast
)
,
// AXI PS Slave HP3 WLAST, input
.
SAXIHP3WSTRB
(
afi3_wstrb
)
,
// AXI PS Slave HP3 WSTRB[7:0], input
.
SAXIHP3WCOUNT
(
afi3_wcount
)
,
// AXI PS Slave HP3 WCOUNT[7:0], output
.
SAXIHP3WACOUNT
(
afi3_wacount
)
,
// AXI PS Slave HP3 WACOUNT[5:0], output
.
SAXIHP3WRISSUECAP1EN
(
afi3_wrissuecap1en
)
,
// AXI PS Slave HP3 WRISSUECAP1EN, input
// AXI PS Slave HP3: Write response
.
SAXIHP3BVALID
(
afi3_bvalid
)
,
// AXI PS Slave HP3 BVALID, output
.
SAXIHP3BREADY
(
afi3_bready
)
,
// AXI PS Slave HP3 BREADY, input
.
SAXIHP3BID
(
afi3_bid
)
,
// AXI PS Slave HP3 BID[5:0], output
.
SAXIHP3BRESP
(
afi3_bresp
)
,
// AXI PS Slave HP3 BRESP[1:0], output
// AXI PS Slave ACP
// AXI PS Slave ACP: Clock, Reset
.
SAXIACPACLK
()
,
// AXI PS Slave ACP Clock, input
.
SAXIACPARESETN
()
,
// AXI PS Slave ACP Reset, output
// AXI PS Slave ACP: Read Address
.
SAXIACPARADDR
()
,
// AXI PS Slave ACP ARADDR[31:0], input
.
SAXIACPARVALID
()
,
// AXI PS Slave ACP ARVALID, input
.
SAXIACPARREADY
()
,
// AXI PS Slave ACP ARREADY, output
.
SAXIACPARID
()
,
// AXI PS Slave ACP ARID[2:0], input
.
SAXIACPARLOCK
()
,
// AXI PS Slave ACP ARLOCK[1:0], input
.
SAXIACPARCACHE
()
,
// AXI PS Slave ACP ARCACHE[3:0], input
.
SAXIACPARPROT
()
,
// AXI PS Slave ACP ARPROT[2:0], input
.
SAXIACPARLEN
()
,
// AXI PS Slave ACP ARLEN[3:0], input
.
SAXIACPARSIZE
()
,
// AXI PS Slave ACP ARSIZE[2:0], input
.
SAXIACPARBURST
()
,
// AXI PS Slave ACP ARBURST[1:0], input
.
SAXIACPARQOS
()
,
// AXI PS Slave ACP ARQOS[3:0], input
.
SAXIACPARUSER
()
,
// AXI PS Slave ACP ARUSER[4:0], input
// AXI PS Slave ACP: Read Data
.
SAXIACPRDATA
()
,
// AXI PS Slave ACP RDATA[63:0], output
.
SAXIACPRVALID
()
,
// AXI PS Slave ACP RVALID, output
.
SAXIACPRREADY
()
,
// AXI PS Slave ACP RREADY, input
.
SAXIACPRID
()
,
// AXI PS Slave ACP RID[2:0], output
.
SAXIACPRLAST
()
,
// AXI PS Slave ACP RLAST, output
.
SAXIACPRRESP
()
,
// AXI PS Slave ACP RRESP[1:0], output
// AXI PS Slave ACP: Write Address
.
SAXIACPAWADDR
()
,
// AXI PS Slave ACP AWADDR[31:0], input
.
SAXIACPAWVALID
()
,
// AXI PS Slave ACP AWVALID, input
.
SAXIACPAWREADY
()
,
// AXI PS Slave ACP AWREADY, output
.
SAXIACPAWID
()
,
// AXI PS Slave ACP AWID[2:0], input
.
SAXIACPAWLOCK
()
,
// AXI PS Slave ACP AWLOCK[1:0], input
.
SAXIACPAWCACHE
()
,
// AXI PS Slave ACP AWCACHE[3:0], input
.
SAXIACPAWPROT
()
,
// AXI PS Slave ACP AWPROT[2:0], input
.
SAXIACPAWLEN
()
,
// AXI PS Slave ACP AWLEN[3:0], input
.
SAXIACPAWSIZE
()
,
// AXI PS Slave ACP AWSIZE[1:0], input
.
SAXIACPAWBURST
()
,
// AXI PS Slave ACP AWBURST[1:0], input
.
SAXIACPAWQOS
()
,
// AXI PS Slave ACP AWQOS[3:0], input
.
SAXIACPAWUSER
()
,
// AXI PS Slave ACP AWUSER[4:0], input
// AXI PS Slave ACP: Write Data
.
SAXIACPWDATA
()
,
// AXI PS Slave ACP WDATA[63:0], input
.
SAXIACPWVALID
()
,
// AXI PS Slave ACP WVALID, input
.
SAXIACPWREADY
()
,
// AXI PS Slave ACP WREADY, output
.
SAXIACPWID
()
,
// AXI PS Slave ACP WID[2:0], input
.
SAXIACPWLAST
()
,
// AXI PS Slave ACP WLAST, input
.
SAXIACPWSTRB
()
,
// AXI PS Slave ACP WSTRB[7:0], input
// AXI PS Slave ACP: Write response
.
SAXIACPBVALID
()
,
// AXI PS Slave ACP BVALID, output
.
SAXIACPBREADY
()
,
// AXI PS Slave ACP BREADY, input
.
SAXIACPBID
()
,
// AXI PS Slave ACP BID[2:0], output
.
SAXIACPBRESP
()
,
// AXI PS Slave ACP BRESP[1:0], output
// Direct connection to PS package pads
.
DDRA
()
,
// PS DDRA[14:0], inout
.
DDRBA
()
,
// PS DDRBA[2:0], inout
.
DDRCASB
()
,
// PS DDRCASB, inout
.
DDRCKE
()
,
// PS DDRCKE, inout
.
DDRCKP
()
,
// PS DDRCKP, inout
.
DDRCKN
()
,
// PS DDRCKN, inout
.
DDRCSB
()
,
// PS DDRCSB, inout
.
DDRDM
()
,
// PS DDRDM[3:0], inout
.
DDRDQ
()
,
// PS DDRDQ[31:0], inout
.
DDRDQSP
()
,
// PS DDRDQSP[3:0], inout
.
DDRDQSN
()
,
// PS DDRDQSN[3:0], inout
.
DDRDRSTB
()
,
// PS DDRDRSTB, inout
.
DDRODT
()
,
// PS DDRODT, inout
.
DDRRASB
()
,
// PS DDRRASB, inout
.
DDRVRN
()
,
// PS DDRVRN, inout
.
DDRVRP
()
,
// PS DDRVRP, inout
.
DDRWEB
()
,
// PS DDRWEB, inout
.
MIO
()
,
// PS MIO[53:0], inout // clg225 has less
.
PSCLK
()
,
// PS PSCLK, inout
.
PSPORB
()
,
// PS PSPORB, inout
.
PSSRSTB
()
// PS PSSRSTB, inout
)
;
endmodule
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