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Rework GT instances in VCU1525 design

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This commit is contained in:
Alex Forencich 2021-10-19 18:40:32 -07:00
parent 0b41dc4011
commit a1da0ba184
7 changed files with 783 additions and 518 deletions
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6
example/VCU1525/fpga_10g/fpga.xdc
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@ -133,8 +133,8 @@ set_property -dict {LOC P7 } [get_ports qsfp1_tx4_p] ;# MGTYTXP3_230 GTYE4_CHAN
set_property -dict {LOC P6 } [get_ports qsfp1_tx4_n] ;# MGTYTXN3_230 GTYE4_CHANNEL_X1Y47 / GTYE4_COMMON_X1Y11
#set_property -dict {LOC T11 } [get_ports qsfp1_mgt_refclk_0_p] ;# MGTREFCLK0P_230 from U14.4 via U43.15
#set_property -dict {LOC T10 } [get_ports qsfp1_mgt_refclk_0_n] ;# MGTREFCLK0N_230 from U14.5 via U43.16
#set_property -dict {LOC P11 } [get_ports qsfp1_mgt_refclk_1_p] ;# MGTREFCLK1P_230 from U12.18
#set_property -dict {LOC P10 } [get_ports qsfp1_mgt_refclk_1_n] ;# MGTREFCLK1N_230 from U12.17
set_property -dict {LOC P11 } [get_ports qsfp1_mgt_refclk_1_p] ;# MGTREFCLK1P_230 from U12.18
set_property -dict {LOC P10 } [get_ports qsfp1_mgt_refclk_1_n] ;# MGTREFCLK1N_230 from U12.17
set_property -dict {LOC AY20 IOSTANDARD LVCMOS12 SLEW SLOW DRIVE 8} [get_ports qsfp1_modsell]
set_property -dict {LOC BC18 IOSTANDARD LVCMOS12 SLEW SLOW DRIVE 8} [get_ports qsfp1_resetl]
set_property -dict {LOC BC19 IOSTANDARD LVCMOS12 PULLUP true} [get_ports qsfp1_modprsl]
@ -151,7 +151,7 @@ set_property -dict {LOC AU20 IOSTANDARD LVCMOS12 SLEW SLOW DRIVE 8} [get_ports {
#create_clock -period 6.400 -name qsfp1_mgt_refclk_1 [get_ports qsfp1_mgt_refclk_1_p]
# 161.1328125 MHz MGT reference clock (from SI5335, FS = 0b10)
#create_clock -period 6.206 -name qsfp1_mgt_refclk_1 [get_ports qsfp1_mgt_refclk_1_p]
create_clock -period 6.206 -name qsfp1_mgt_refclk_1 [get_ports qsfp1_mgt_refclk_1_p]
set_false_path -to [get_ports {qsfp1_modsell qsfp1_resetl qsfp1_lpmode qsfp1_refclk_reset qsfp1_fs[*]}]
set_output_delay 0 [get_ports {qsfp1_modsell qsfp1_resetl qsfp1_lpmode qsfp1_refclk_reset qsfp1_fs[*]}]

3
example/VCU1525/fpga_10g/fpga/Makefile
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@ -7,6 +7,7 @@ FPGA_ARCH = virtexuplus
# Files for synthesis
SYN_FILES = rtl/fpga.v
SYN_FILES += rtl/fpga_core.v
SYN_FILES += rtl/eth_xcvr_phy_wrapper.v
SYN_FILES += rtl/debounce_switch.v
SYN_FILES += rtl/sync_signal.v
SYN_FILES += lib/eth/rtl/eth_mac_10g_fifo.v
@ -56,7 +57,7 @@ XDC_FILES += lib/eth/lib/axis/syn/vivado/axis_async_fifo.tcl
XDC_FILES += lib/eth/lib/axis/syn/vivado/sync_reset.tcl
# IP
IP_TCL_FILES = ip/gtwizard_ultrascale_0.tcl
IP_TCL_FILES += ip/eth_xcvr_gt.tcl
include ../common/vivado.mk

76
example/VCU1525/fpga_10g/ip/eth_xcvr_gt.tcl Normal file
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@ -0,0 +1,76 @@
# Copyright (c) 2021 Alex Forencich
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
set base_name {eth_xcvr_gt}
set preset {GTY-10GBASE-R}
set freerun_freq {125}
set line_rate {10.3125}
set refclk_freq {161.1328125}
set qpll_fracn [expr {int(fmod($line_rate*1000/2 / $refclk_freq, 1)*pow(2, 24))}]
set user_data_width {64}
set int_data_width $user_data_width
set extra_ports [list]
set extra_pll_ports [list {qpll0lock_out}]
set config [dict create]
dict set config TX_LINE_RATE $line_rate
dict set config TX_REFCLK_FREQUENCY $refclk_freq
dict set config TX_QPLL_FRACN_NUMERATOR $qpll_fracn
dict set config TX_USER_DATA_WIDTH $user_data_width
dict set config TX_INT_DATA_WIDTH $int_data_width
dict set config RX_LINE_RATE $line_rate
dict set config RX_REFCLK_FREQUENCY $refclk_freq
dict set config RX_QPLL_FRACN_NUMERATOR $qpll_fracn
dict set config RX_USER_DATA_WIDTH $user_data_width
dict set config RX_INT_DATA_WIDTH $int_data_width
dict set config ENABLE_OPTIONAL_PORTS $extra_ports
dict set config LOCATE_COMMON {CORE}
dict set config LOCATE_RESET_CONTROLLER {CORE}
dict set config LOCATE_TX_USER_CLOCKING {CORE}
dict set config LOCATE_RX_USER_CLOCKING {CORE}
dict set config LOCATE_USER_DATA_WIDTH_SIZING {CORE}
dict set config FREERUN_FREQUENCY $freerun_freq
dict set config DISABLE_LOC_XDC {1}
proc create_gtwizard_ip {name preset config} {
create_ip -name gtwizard_ultrascale -vendor xilinx.com -library ip -module_name $name
set ip [get_ips $name]
set_property CONFIG.preset $preset $ip
set config_list {}
dict for {name value} $config {
lappend config_list "CONFIG.${name}" $value
}
set_property -dict $config_list $ip
}
# variant with channel and common
dict set config ENABLE_OPTIONAL_PORTS [concat $extra_pll_ports $extra_ports]
dict set config LOCATE_COMMON {CORE}
create_gtwizard_ip "${base_name}_full" $preset $config
# variant with channel only
dict set config ENABLE_OPTIONAL_PORTS $extra_ports
dict set config LOCATE_COMMON {EXAMPLE_DESIGN}
create_gtwizard_ip "${base_name}_channel" $preset $config

21
example/VCU1525/fpga_10g/ip/gtwizard_ultrascale_0.tcl
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@ -1,21 +0,0 @@
create_ip -name gtwizard_ultrascale -vendor xilinx.com -library ip -module_name gtwizard_ultrascale_0
set_property -dict [list CONFIG.preset {GTY-10GBASE-R}] [get_ips gtwizard_ultrascale_0]
set_property -dict [list \
CONFIG.CHANNEL_ENABLE {X1Y51 X1Y50 X1Y49 X1Y48 X1Y47 X1Y46 X1Y45 X1Y44} \
CONFIG.TX_MASTER_CHANNEL {X1Y48} \
CONFIG.RX_MASTER_CHANNEL {X1Y48} \
CONFIG.TX_LINE_RATE {10.3125} \
CONFIG.TX_REFCLK_FREQUENCY {161.1328125} \
CONFIG.TX_USER_DATA_WIDTH {64} \
CONFIG.TX_INT_DATA_WIDTH {64} \
CONFIG.RX_LINE_RATE {10.3125} \
CONFIG.RX_REFCLK_FREQUENCY {161.1328125} \
CONFIG.RX_USER_DATA_WIDTH {64} \
CONFIG.RX_INT_DATA_WIDTH {64} \
CONFIG.RX_REFCLK_SOURCE {X1Y51 clk1 X1Y50 clk1 X1Y49 clk1 X1Y48 clk1 X1Y47 clk1+1 X1Y46 clk1+1 X1Y45 clk1+1 X1Y44 clk1+1} \
CONFIG.TX_REFCLK_SOURCE {X1Y51 clk1 X1Y50 clk1 X1Y49 clk1 X1Y48 clk1 X1Y47 clk1+1 X1Y46 clk1+1 X1Y45 clk1+1 X1Y44 clk1+1} \
CONFIG.FREERUN_FREQUENCY {125} \
] [get_ips gtwizard_ultrascale_0]

295
example/VCU1525/fpga_10g/rtl/eth_xcvr_phy_wrapper.v Normal file
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@ -0,0 +1,295 @@
/*
Copyright (c) 2021 Alex Forencich
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
// Language: Verilog 2001
`timescale 1ns / 1ps
/*
* Transceiver and PHY wrapper
*/
module eth_xcvr_phy_wrapper #
(
parameter HAS_COMMON = 1,
parameter DATA_WIDTH = 64,
parameter CTRL_WIDTH = (DATA_WIDTH/8),
parameter HDR_WIDTH = 2,
parameter PRBS31_ENABLE = 0,
parameter TX_SERDES_PIPELINE = 0,
parameter RX_SERDES_PIPELINE = 0,
parameter BITSLIP_HIGH_CYCLES = 1,
parameter BITSLIP_LOW_CYCLES = 8,
parameter COUNT_125US = 125000/6.4
)
(
input wire xcvr_ctrl_clk,
input wire xcvr_ctrl_rst,
/*
* Common
*/
output wire xcvr_gtpowergood_out,
/*
* PLL out
*/
input wire xcvr_gtrefclk00_in,
output wire xcvr_qpll0lock_out,
output wire xcvr_qpll0outclk_out,
output wire xcvr_qpll0outrefclk_out,
/*
* PLL in
*/
input wire xcvr_qpll0lock_in,
output wire xcvr_qpll0reset_out,
input wire xcvr_qpll0clk_in,
input wire xcvr_qpll0refclk_in,
/*
* Serial data
*/
output wire xcvr_txp,
output wire xcvr_txn,
input wire xcvr_rxp,
input wire xcvr_rxn,
/*
* PHY connections
*/
output wire phy_tx_clk,
output wire phy_tx_rst,
input wire [DATA_WIDTH-1:0] phy_xgmii_txd,
input wire [CTRL_WIDTH-1:0] phy_xgmii_txc,
output wire phy_rx_clk,
output wire phy_rx_rst,
output wire [DATA_WIDTH-1:0] phy_xgmii_rxd,
output wire [CTRL_WIDTH-1:0] phy_xgmii_rxc,
output wire phy_tx_bad_block,
output wire [6:0] phy_rx_error_count,
output wire phy_rx_bad_block,
output wire phy_rx_sequence_error,
output wire phy_rx_block_lock,
output wire phy_rx_high_ber,
input wire phy_tx_prbs31_enable,
input wire phy_rx_prbs31_enable
);
wire phy_rx_reset_req;
wire gt_reset_tx_datapath = 1'b0;
wire gt_reset_rx_datapath = phy_rx_reset_req;
wire gt_reset_tx_done;
wire gt_reset_rx_done;
wire [5:0] gt_txheader;
wire [63:0] gt_txdata;
wire gt_rxgearboxslip;
wire [5:0] gt_rxheader;
wire [1:0] gt_rxheadervalid;
wire [63:0] gt_rxdata;
wire [1:0] gt_rxdatavalid;
generate
if (HAS_COMMON) begin : xcvr
eth_xcvr_gt_full
eth_xcvr_gt_full_inst (
// Common
.gtwiz_reset_clk_freerun_in(xcvr_ctrl_clk),
.gtwiz_reset_all_in(xcvr_ctrl_rst),
.gtpowergood_out(xcvr_gtpowergood_out),
// PLL
.gtrefclk00_in(xcvr_gtrefclk00_in),
.qpll0lock_out(xcvr_qpll0lock_out),
.qpll0outclk_out(xcvr_qpll0outclk_out),
.qpll0outrefclk_out(xcvr_qpll0outrefclk_out),
// Serial data
.gtytxp_out(xcvr_txp),
.gtytxn_out(xcvr_txn),
.gtyrxp_in(xcvr_rxp),
.gtyrxn_in(xcvr_rxn),
// Transmit
.gtwiz_userclk_tx_reset_in(1'b0),
.gtwiz_userclk_tx_srcclk_out(),
.gtwiz_userclk_tx_usrclk_out(),
.gtwiz_userclk_tx_usrclk2_out(phy_tx_clk),
.gtwiz_userclk_tx_active_out(),
.gtwiz_reset_tx_pll_and_datapath_in(1'b0),
.gtwiz_reset_tx_datapath_in(gt_reset_tx_datapath),
.gtwiz_reset_tx_done_out(gt_reset_tx_done),
.txpmaresetdone_out(),
.txprgdivresetdone_out(),
.gtwiz_userdata_tx_in(gt_txdata),
.txheader_in(gt_txheader),
.txsequence_in(7'b0),
// Receive
.gtwiz_userclk_rx_reset_in(1'b0),
.gtwiz_userclk_rx_srcclk_out(),
.gtwiz_userclk_rx_usrclk_out(),
.gtwiz_userclk_rx_usrclk2_out(phy_rx_clk),
.gtwiz_userclk_rx_active_out(),
.gtwiz_reset_rx_pll_and_datapath_in(1'b0),
.gtwiz_reset_rx_datapath_in(gt_reset_rx_datapath),
.gtwiz_reset_rx_cdr_stable_out(),
.gtwiz_reset_rx_done_out(gt_reset_rx_done),
.rxpmaresetdone_out(),
.rxprgdivresetdone_out(),
.rxgearboxslip_in(gt_rxgearboxslip),
.gtwiz_userdata_rx_out(gt_rxdata),
.rxdatavalid_out(gt_rxdatavalid),
.rxheader_out(gt_rxheader),
.rxheadervalid_out(gt_rxheadervalid),
.rxstartofseq_out()
);
end else begin : xcvr
eth_xcvr_gt_channel
eth_xcvr_gt_channel_inst (
// Common
.gtwiz_reset_clk_freerun_in(xcvr_ctrl_clk),
.gtwiz_reset_all_in(xcvr_ctrl_rst),
.gtpowergood_out(xcvr_gtpowergood_out),
// PLL
.gtwiz_reset_qpll0lock_in(xcvr_qpll0lock_in),
.gtwiz_reset_qpll0reset_out(xcvr_qpll0reset_out),
.qpll0clk_in(xcvr_qpll0clk_in),
.qpll0refclk_in(xcvr_qpll0refclk_in),
.qpll1clk_in(1'b0),
.qpll1refclk_in(1'b0),
// Serial data
.gtytxp_out(xcvr_txp),
.gtytxn_out(xcvr_txn),
.gtyrxp_in(xcvr_rxp),
.gtyrxn_in(xcvr_rxn),
// Transmit
.gtwiz_userclk_tx_reset_in(1'b0),
.gtwiz_userclk_tx_srcclk_out(),
.gtwiz_userclk_tx_usrclk_out(),
.gtwiz_userclk_tx_usrclk2_out(phy_tx_clk),
.gtwiz_userclk_tx_active_out(),
.gtwiz_reset_tx_pll_and_datapath_in(1'b0),
.gtwiz_reset_tx_datapath_in(gt_reset_tx_datapath),
.gtwiz_reset_tx_done_out(gt_reset_tx_done),
.txpmaresetdone_out(),
.txprgdivresetdone_out(),
.gtwiz_userdata_tx_in(gt_txdata),
.txheader_in(gt_txheader),
.txsequence_in(7'b0),
// Receive
.gtwiz_userclk_rx_reset_in(1'b0),
.gtwiz_userclk_rx_srcclk_out(),
.gtwiz_userclk_rx_usrclk_out(),
.gtwiz_userclk_rx_usrclk2_out(phy_rx_clk),
.gtwiz_userclk_rx_active_out(),
.gtwiz_reset_rx_pll_and_datapath_in(1'b0),
.gtwiz_reset_rx_datapath_in(gt_reset_rx_datapath),
.gtwiz_reset_rx_cdr_stable_out(),
.gtwiz_reset_rx_done_out(gt_reset_rx_done),
.rxpmaresetdone_out(),
.rxprgdivresetdone_out(),
.rxgearboxslip_in(gt_rxgearboxslip),
.gtwiz_userdata_rx_out(gt_rxdata),
.rxdatavalid_out(gt_rxdatavalid),
.rxheader_out(gt_rxheader),
.rxheadervalid_out(gt_rxheadervalid),
.rxstartofseq_out()
);
end
endgenerate
sync_reset #(
.N(4)
)
tx_reset_sync_inst (
.clk(phy_tx_clk),
.rst(!gt_reset_tx_done),
.out(phy_tx_rst)
);
sync_reset #(
.N(4)
)
rx_reset_sync_inst (
.clk(phy_rx_clk),
.rst(!gt_reset_rx_done),
.out(phy_rx_rst)
);
eth_phy_10g #(
.DATA_WIDTH(DATA_WIDTH),
.CTRL_WIDTH(CTRL_WIDTH),
.HDR_WIDTH(HDR_WIDTH),
.BIT_REVERSE(1),
.SCRAMBLER_DISABLE(0),
.PRBS31_ENABLE(PRBS31_ENABLE),
.TX_SERDES_PIPELINE(TX_SERDES_PIPELINE),
.RX_SERDES_PIPELINE(RX_SERDES_PIPELINE),
.BITSLIP_HIGH_CYCLES(BITSLIP_HIGH_CYCLES),
.BITSLIP_LOW_CYCLES(BITSLIP_LOW_CYCLES),
.COUNT_125US(COUNT_125US)
)
phy_inst (
.tx_clk(phy_tx_clk),
.tx_rst(phy_tx_rst),
.rx_clk(phy_rx_clk),
.rx_rst(phy_rx_rst),
.xgmii_txd(phy_xgmii_txd),
.xgmii_txc(phy_xgmii_txc),
.xgmii_rxd(phy_xgmii_rxd),
.xgmii_rxc(phy_xgmii_rxc),
.serdes_tx_data(gt_txdata),
.serdes_tx_hdr(gt_txheader),
.serdes_rx_data(gt_rxdata),
.serdes_rx_hdr(gt_rxheader),
.serdes_rx_bitslip(gt_rxgearboxslip),
.serdes_rx_reset_req(phy_rx_reset_req),
.tx_bad_block(phy_tx_bad_block),
.rx_error_count(phy_rx_error_count),
.rx_bad_block(phy_rx_bad_block),
.rx_sequence_error(phy_rx_sequence_error),
.rx_block_lock(phy_rx_block_lock),
.rx_high_ber(phy_rx_high_ber),
.tx_prbs31_enable(phy_tx_prbs31_enable),
.rx_prbs31_enable(phy_rx_prbs31_enable)
);
endmodule

898
example/VCU1525/fpga_10g/rtl/fpga.v
View File

@ -1,6 +1,6 @@
/*
Copyright (c) 2014-2018 Alex Forencich
Copyright (c) 2014-2021 Alex Forencich
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
@ -96,8 +96,8 @@ module fpga (
input wire qsfp1_rx4_n,
// input wire qsfp1_mgt_refclk_0_p,
// input wire qsfp1_mgt_refclk_0_n,
// input wire qsfp1_mgt_refclk_1_p,
// input wire qsfp1_mgt_refclk_1_n,
input wire qsfp1_mgt_refclk_1_p,
input wire qsfp1_mgt_refclk_1_n,
output wire qsfp1_modsell,
output wire qsfp1_resetl,
input wire qsfp1_modprsl,
@ -304,6 +304,8 @@ always @(posedge cfgmclk_int) begin
end
// XGMII 10G PHY
// QSFP0
assign qsfp0_modsell = 1'b0;
assign qsfp0_resetl = 1'b1;
assign qsfp0_lpmode = 1'b0;
@ -343,6 +345,229 @@ wire qsfp0_rx_rst_4_int;
wire [63:0] qsfp0_rxd_4_int;
wire [7:0] qsfp0_rxc_4_int;
assign clk_156mhz_int = qsfp0_tx_clk_1_int;
assign rst_156mhz_int = qsfp0_tx_rst_1_int;
wire qsfp0_rx_block_lock_1;
wire qsfp0_rx_block_lock_2;
wire qsfp0_rx_block_lock_3;
wire qsfp0_rx_block_lock_4;
wire qsfp0_gtpowergood;
wire qsfp0_mgt_refclk_1;
wire qsfp0_mgt_refclk_1_int;
wire qsfp0_mgt_refclk_1_bufg;
assign clk_161mhz_ref_int = qsfp0_mgt_refclk_1_bufg;
IBUFDS_GTE4 ibufds_gte4_qsfp0_mgt_refclk_1_inst (
.I (qsfp0_mgt_refclk_1_p),
.IB (qsfp0_mgt_refclk_1_n),
.CEB (1'b0),
.O (qsfp0_mgt_refclk_1),
.ODIV2 (qsfp0_mgt_refclk_1_int)
);
BUFG_GT bufg_gt_refclk_inst (
.CE (qsfp0_gtpowergood),
.CEMASK (1'b1),
.CLR (1'b0),
.CLRMASK (1'b1),
.DIV (3'd0),
.I (qsfp0_mgt_refclk_1_int),
.O (qsfp0_mgt_refclk_1_bufg)
);
wire qsfp0_qpll0lock;
wire qsfp0_qpll0outclk;
wire qsfp0_qpll0outrefclk;
eth_xcvr_phy_wrapper #(
.HAS_COMMON(1)
)
qsfp0_phy_1_inst (
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(qsfp0_gtpowergood),
// PLL out
.xcvr_gtrefclk00_in(qsfp0_mgt_refclk_1),
.xcvr_qpll0lock_out(qsfp0_qpll0lock),
.xcvr_qpll0outclk_out(qsfp0_qpll0outclk),
.xcvr_qpll0outrefclk_out(qsfp0_qpll0outrefclk),
// PLL in
.xcvr_qpll0lock_in(1'b0),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(1'b0),
.xcvr_qpll0refclk_in(1'b0),
// Serial data
.xcvr_txp(qsfp0_tx1_p),
.xcvr_txn(qsfp0_tx1_n),
.xcvr_rxp(qsfp0_rx1_p),
.xcvr_rxn(qsfp0_rx1_n),
// PHY connections
.phy_tx_clk(qsfp0_tx_clk_1_int),
.phy_tx_rst(qsfp0_tx_rst_1_int),
.phy_xgmii_txd(qsfp0_txd_1_int),
.phy_xgmii_txc(qsfp0_txc_1_int),
.phy_rx_clk(qsfp0_rx_clk_1_int),
.phy_rx_rst(qsfp0_rx_rst_1_int),
.phy_xgmii_rxd(qsfp0_rxd_1_int),
.phy_xgmii_rxc(qsfp0_rxc_1_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp0_rx_block_lock_1),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp0_phy_2_inst (
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp0_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp0_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp0_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp0_tx2_p),
.xcvr_txn(qsfp0_tx2_n),
.xcvr_rxp(qsfp0_rx2_p),
.xcvr_rxn(qsfp0_rx2_n),
// PHY connections
.phy_tx_clk(qsfp0_tx_clk_2_int),
.phy_tx_rst(qsfp0_tx_rst_2_int),
.phy_xgmii_txd(qsfp0_txd_2_int),
.phy_xgmii_txc(qsfp0_txc_2_int),
.phy_rx_clk(qsfp0_rx_clk_2_int),
.phy_rx_rst(qsfp0_rx_rst_2_int),
.phy_xgmii_rxd(qsfp0_rxd_2_int),
.phy_xgmii_rxc(qsfp0_rxc_2_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp0_rx_block_lock_2),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp0_phy_3_inst (
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp0_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp0_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp0_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp0_tx3_p),
.xcvr_txn(qsfp0_tx3_n),
.xcvr_rxp(qsfp0_rx3_p),
.xcvr_rxn(qsfp0_rx3_n),
// PHY connections
.phy_tx_clk(qsfp0_tx_clk_3_int),
.phy_tx_rst(qsfp0_tx_rst_3_int),
.phy_xgmii_txd(qsfp0_txd_3_int),
.phy_xgmii_txc(qsfp0_txc_3_int),
.phy_rx_clk(qsfp0_rx_clk_3_int),
.phy_rx_rst(qsfp0_rx_rst_3_int),
.phy_xgmii_rxd(qsfp0_rxd_3_int),
.phy_xgmii_rxc(qsfp0_rxc_3_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp0_rx_block_lock_3),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp0_phy_4_inst (
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp0_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp0_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp0_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp0_tx4_p),
.xcvr_txn(qsfp0_tx4_n),
.xcvr_rxp(qsfp0_rx4_p),
.xcvr_rxn(qsfp0_rx4_n),
// PHY connections
.phy_tx_clk(qsfp0_tx_clk_4_int),
.phy_tx_rst(qsfp0_tx_rst_4_int),
.phy_xgmii_txd(qsfp0_txd_4_int),
.phy_xgmii_txc(qsfp0_txc_4_int),
.phy_rx_clk(qsfp0_rx_clk_4_int),
.phy_rx_rst(qsfp0_rx_rst_4_int),
.phy_xgmii_rxd(qsfp0_rxd_4_int),
.phy_xgmii_rxc(qsfp0_rxc_4_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp0_rx_block_lock_4),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
// QSFP1
assign qsfp1_modsell = 1'b0;
assign qsfp1_resetl = 1'b1;
assign qsfp1_lpmode = 1'b0;
@ -382,518 +607,207 @@ wire qsfp1_rx_rst_4_int;
wire [63:0] qsfp1_rxd_4_int;
wire [7:0] qsfp1_rxc_4_int;
wire qsfp0_rx_block_lock_1;
wire qsfp0_rx_block_lock_2;
wire qsfp0_rx_block_lock_3;
wire qsfp0_rx_block_lock_4;
wire qsfp1_rx_block_lock_1;
wire qsfp1_rx_block_lock_2;
wire qsfp1_rx_block_lock_3;
wire qsfp1_rx_block_lock_4;
wire [7:0] qsfp_gtpowergood;
wire qsfp1_mgt_refclk_1;
wire qsfp0_mgt_refclk_1;
wire qsfp0_mgt_refclk_1_int;
wire qsfp0_mgt_refclk_1_bufg;
assign clk_161mhz_ref_int = qsfp0_mgt_refclk_1_bufg;
wire [7:0] gt_txclkout;
wire gt_txusrclk;
wire [7:0] gt_rxclkout;
wire [7:0] gt_rxusrclk;
wire gt_reset_tx_done;
wire gt_reset_rx_done;
wire [7:0] gt_txprgdivresetdone;
wire [7:0] gt_txpmaresetdone;
wire [7:0] gt_rxprgdivresetdone;
wire [7:0] gt_rxpmaresetdone;
wire gt_tx_reset = ~((&gt_txprgdivresetdone) & (&gt_txpmaresetdone));
wire gt_rx_reset = ~&gt_rxpmaresetdone;
reg gt_userclk_tx_active = 1'b0;
reg [7:0] gt_userclk_rx_active = 1'b0;
IBUFDS_GTE4 ibufds_gte4_qsfp0_mgt_refclk_1_inst (
.I (qsfp0_mgt_refclk_1_p),
.IB (qsfp0_mgt_refclk_1_n),
.CEB (1'b0),
.O (qsfp0_mgt_refclk_1),
.ODIV2 (qsfp0_mgt_refclk_1_int)
IBUFDS_GTE4 ibufds_gte4_qsfp1_mgt_refclk_1_inst (
.I (qsfp1_mgt_refclk_1_p),
.IB (qsfp1_mgt_refclk_1_n),
.CEB (1'b0),
.O (qsfp1_mgt_refclk_1),
.ODIV2 ()
);
BUFG_GT bufg_gt_refclk_inst (
.CE (&qsfp_gtpowergood),
.CEMASK (1'b1),
.CLR (1'b0),
.CLRMASK (1'b1),
.DIV (3'd0),
.I (qsfp0_mgt_refclk_1_int),
.O (qsfp0_mgt_refclk_1_bufg)
);
wire qsfp1_qpll0lock;
wire qsfp1_qpll0outclk;
wire qsfp1_qpll0outrefclk;
BUFG_GT bufg_gt_tx_usrclk_inst (
.CE (1'b1),
.CEMASK (1'b0),
.CLR (gt_tx_reset),
.CLRMASK (1'b0),
.DIV (3'd0),
.I (gt_txclkout[0]),
.O (gt_txusrclk)
);
assign clk_156mhz_int = gt_txusrclk;
always @(posedge gt_txusrclk, posedge gt_tx_reset) begin
if (gt_tx_reset) begin
gt_userclk_tx_active <= 1'b0;
end else begin
gt_userclk_tx_active <= 1'b1;
end
end
genvar n;
generate
for (n = 0; n < 8; n = n + 1) begin
BUFG_GT bufg_gt_rx_usrclk_inst (
.CE (1'b1),
.CEMASK (1'b0),
.CLR (gt_rx_reset),
.CLRMASK (1'b0),
.DIV (3'd0),
.I (gt_rxclkout[n]),
.O (gt_rxusrclk[n])
);
always @(posedge gt_rxusrclk[n], posedge gt_rx_reset) begin
if (gt_rx_reset) begin
gt_userclk_rx_active[n] <= 1'b0;
end else begin
gt_userclk_rx_active[n] <= 1'b1;
end
end
end
endgenerate
sync_reset #(
.N(4)
)
sync_reset_156mhz_inst (
.clk(clk_156mhz_int),
.rst(~gt_reset_tx_done),
.out(rst_156mhz_int)
);
wire [5:0] qsfp0_gt_txheader_1;
wire [63:0] qsfp0_gt_txdata_1;
wire qsfp0_gt_rxgearboxslip_1;
wire [5:0] qsfp0_gt_rxheader_1;
wire [1:0] qsfp0_gt_rxheadervalid_1;
wire [63:0] qsfp0_gt_rxdata_1;
wire [1:0] qsfp0_gt_rxdatavalid_1;
wire [5:0] qsfp0_gt_txheader_2;
wire [63:0] qsfp0_gt_txdata_2;
wire qsfp0_gt_rxgearboxslip_2;
wire [5:0] qsfp0_gt_rxheader_2;
wire [1:0] qsfp0_gt_rxheadervalid_2;
wire [63:0] qsfp0_gt_rxdata_2;
wire [1:0] qsfp0_gt_rxdatavalid_2;
wire [5:0] qsfp0_gt_txheader_3;
wire [63:0] qsfp0_gt_txdata_3;
wire qsfp0_gt_rxgearboxslip_3;
wire [5:0] qsfp0_gt_rxheader_3;
wire [1:0] qsfp0_gt_rxheadervalid_3;
wire [63:0] qsfp0_gt_rxdata_3;
wire [1:0] qsfp0_gt_rxdatavalid_3;
wire [5:0] qsfp0_gt_txheader_4;
wire [63:0] qsfp0_gt_txdata_4;
wire qsfp0_gt_rxgearboxslip_4;
wire [5:0] qsfp0_gt_rxheader_4;
wire [1:0] qsfp0_gt_rxheadervalid_4;
wire [63:0] qsfp0_gt_rxdata_4;
wire [1:0] qsfp0_gt_rxdatavalid_4;
wire [5:0] qsfp1_gt_txheader_1;
wire [63:0] qsfp1_gt_txdata_1;
wire qsfp1_gt_rxgearboxslip_1;
wire [5:0] qsfp1_gt_rxheader_1;
wire [1:0] qsfp1_gt_rxheadervalid_1;
wire [63:0] qsfp1_gt_rxdata_1;
wire [1:0] qsfp1_gt_rxdatavalid_1;
wire [5:0] qsfp1_gt_txheader_2;
wire [63:0] qsfp1_gt_txdata_2;
wire qsfp1_gt_rxgearboxslip_2;
wire [5:0] qsfp1_gt_rxheader_2;
wire [1:0] qsfp1_gt_rxheadervalid_2;
wire [63:0] qsfp1_gt_rxdata_2;
wire [1:0] qsfp1_gt_rxdatavalid_2;
wire [5:0] qsfp1_gt_txheader_3;
wire [63:0] qsfp1_gt_txdata_3;
wire qsfp1_gt_rxgearboxslip_3;
wire [5:0] qsfp1_gt_rxheader_3;
wire [1:0] qsfp1_gt_rxheadervalid_3;
wire [63:0] qsfp1_gt_rxdata_3;
wire [1:0] qsfp1_gt_rxdatavalid_3;
wire [5:0] qsfp1_gt_txheader_4;
wire [63:0] qsfp1_gt_txdata_4;
wire qsfp1_gt_rxgearboxslip_4;
wire [5:0] qsfp1_gt_rxheader_4;
wire [1:0] qsfp1_gt_rxheadervalid_4;
wire [63:0] qsfp1_gt_rxdata_4;
wire [1:0] qsfp1_gt_rxdatavalid_4;
gtwizard_ultrascale_0
qsfp_gty_inst (
.gtwiz_userclk_tx_active_in(&gt_userclk_tx_active),
.gtwiz_userclk_rx_active_in(&gt_userclk_rx_active),
.gtwiz_reset_clk_freerun_in(clk_125mhz_int),
.gtwiz_reset_all_in(rst_125mhz_int),
.gtwiz_reset_tx_pll_and_datapath_in(1'b0),
.gtwiz_reset_tx_datapath_in(1'b0),
.gtwiz_reset_rx_pll_and_datapath_in(1'b0),
.gtwiz_reset_rx_datapath_in(1'b0),
.gtwiz_reset_rx_cdr_stable_out(),
.gtwiz_reset_tx_done_out(gt_reset_tx_done),
.gtwiz_reset_rx_done_out(gt_reset_rx_done),
.gtrefclk00_in({2{qsfp0_mgt_refclk_1}}),
.qpll0outclk_out(),
.qpll0outrefclk_out(),
.gtyrxn_in({qsfp0_rx4_n, qsfp0_rx3_n, qsfp0_rx2_n, qsfp0_rx1_n, qsfp1_rx4_n, qsfp1_rx3_n, qsfp1_rx2_n, qsfp1_rx1_n}),
.gtyrxp_in({qsfp0_rx4_p, qsfp0_rx3_p, qsfp0_rx2_p, qsfp0_rx1_p, qsfp1_rx4_p, qsfp1_rx3_p, qsfp1_rx2_p, qsfp1_rx1_p}),
.rxusrclk_in(gt_rxusrclk),
.rxusrclk2_in(gt_rxusrclk),
.gtwiz_userdata_tx_in({qsfp0_gt_txdata_4, qsfp0_gt_txdata_3, qsfp0_gt_txdata_2, qsfp0_gt_txdata_1, qsfp1_gt_txdata_4, qsfp1_gt_txdata_3, qsfp1_gt_txdata_2, qsfp1_gt_txdata_1}),
.txheader_in({qsfp0_gt_txheader_4, qsfp0_gt_txheader_3, qsfp0_gt_txheader_2, qsfp0_gt_txheader_1, qsfp1_gt_txheader_4, qsfp1_gt_txheader_3, qsfp1_gt_txheader_2, qsfp1_gt_txheader_1}),
.txsequence_in({8{1'b0}}),
.txusrclk_in({8{gt_txusrclk}}),
.txusrclk2_in({8{gt_txusrclk}}),
.gtpowergood_out(qsfp_gtpowergood),
.gtytxn_out({qsfp0_tx4_n, qsfp0_tx3_n, qsfp0_tx2_n, qsfp0_tx1_n, qsfp1_tx4_n, qsfp1_tx3_n, qsfp1_tx2_n, qsfp1_tx1_n}),
.gtytxp_out({qsfp0_tx4_p, qsfp0_tx3_p, qsfp0_tx2_p, qsfp0_tx1_p, qsfp1_tx4_p, qsfp1_tx3_p, qsfp1_tx2_p, qsfp1_tx1_p}),
.rxgearboxslip_in({qsfp0_gt_rxgearboxslip_4, qsfp0_gt_rxgearboxslip_3, qsfp0_gt_rxgearboxslip_2, qsfp0_gt_rxgearboxslip_1, qsfp1_gt_rxgearboxslip_4, qsfp1_gt_rxgearboxslip_3, qsfp1_gt_rxgearboxslip_2, qsfp1_gt_rxgearboxslip_1}),
.gtwiz_userdata_rx_out({qsfp0_gt_rxdata_4, qsfp0_gt_rxdata_3, qsfp0_gt_rxdata_2, qsfp0_gt_rxdata_1, qsfp1_gt_rxdata_4, qsfp1_gt_rxdata_3, qsfp1_gt_rxdata_2, qsfp1_gt_rxdata_1}),
.rxdatavalid_out({qsfp0_gt_rxdatavalid_4, qsfp0_gt_rxdatavalid_3, qsfp0_gt_rxdatavalid_2, qsfp0_gt_rxdatavalid_1, qsfp1_gt_rxdatavalid_4, qsfp1_gt_rxdatavalid_3, qsfp1_gt_rxdatavalid_2, qsfp1_gt_rxdatavalid_1}),
.rxheader_out({qsfp0_gt_rxheader_4, qsfp0_gt_rxheader_3, qsfp0_gt_rxheader_2, qsfp0_gt_rxheader_1, qsfp1_gt_rxheader_4, qsfp1_gt_rxheader_3, qsfp1_gt_rxheader_2, qsfp1_gt_rxheader_1}),
.rxheadervalid_out({qsfp0_gt_rxheadervalid_4, qsfp0_gt_rxheadervalid_3, qsfp0_gt_rxheadervalid_2, qsfp0_gt_rxheadervalid_1, qsfp1_gt_rxheadervalid_4, qsfp1_gt_rxheadervalid_3, qsfp1_gt_rxheadervalid_2, qsfp1_gt_rxheadervalid_1}),
.rxoutclk_out(gt_rxclkout),
.rxpmaresetdone_out(gt_rxpmaresetdone),
.rxprgdivresetdone_out(gt_rxprgdivresetdone),
.rxstartofseq_out(),
.txoutclk_out(gt_txclkout),
.txpmaresetdone_out(gt_txpmaresetdone),
.txprgdivresetdone_out(gt_txprgdivresetdone)
);
assign qsfp0_tx_clk_1_int = clk_156mhz_int;
assign qsfp0_tx_rst_1_int = rst_156mhz_int;
assign qsfp0_rx_clk_1_int = gt_rxusrclk[4];
sync_reset #(
.N(4)
)
qsfp0_rx_rst_1_reset_sync_inst (
.clk(qsfp0_rx_clk_1_int),
.rst(~gt_reset_rx_done),
.out(qsfp0_rx_rst_1_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
)
qsfp0_phy_1_inst (
.tx_clk(qsfp0_tx_clk_1_int),
.tx_rst(qsfp0_tx_rst_1_int),
.rx_clk(qsfp0_rx_clk_1_int),
.rx_rst(qsfp0_rx_rst_1_int),
.xgmii_txd(qsfp0_txd_1_int),
.xgmii_txc(qsfp0_txc_1_int),
.xgmii_rxd(qsfp0_rxd_1_int),
.xgmii_rxc(qsfp0_rxc_1_int),
.serdes_tx_data(qsfp0_gt_txdata_1),
.serdes_tx_hdr(qsfp0_gt_txheader_1),
.serdes_rx_data(qsfp0_gt_rxdata_1),
.serdes_rx_hdr(qsfp0_gt_rxheader_1),
.serdes_rx_bitslip(qsfp0_gt_rxgearboxslip_1),
.rx_block_lock(qsfp0_rx_block_lock_1),
.rx_high_ber()
);
assign qsfp0_tx_clk_2_int = clk_156mhz_int;
assign qsfp0_tx_rst_2_int = rst_156mhz_int;
assign qsfp0_rx_clk_2_int = gt_rxusrclk[5];
sync_reset #(
.N(4)
)
qsfp0_rx_rst_2_reset_sync_inst (
.clk(qsfp0_rx_clk_2_int),
.rst(~gt_reset_rx_done),
.out(qsfp0_rx_rst_2_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
)
qsfp0_phy_2_inst (
.tx_clk(qsfp0_tx_clk_2_int),
.tx_rst(qsfp0_tx_rst_2_int),
.rx_clk(qsfp0_rx_clk_2_int),
.rx_rst(qsfp0_rx_rst_2_int),
.xgmii_txd(qsfp0_txd_2_int),
.xgmii_txc(qsfp0_txc_2_int),
.xgmii_rxd(qsfp0_rxd_2_int),
.xgmii_rxc(qsfp0_rxc_2_int),
.serdes_tx_data(qsfp0_gt_txdata_2),
.serdes_tx_hdr(qsfp0_gt_txheader_2),
.serdes_rx_data(qsfp0_gt_rxdata_2),
.serdes_rx_hdr(qsfp0_gt_rxheader_2),
.serdes_rx_bitslip(qsfp0_gt_rxgearboxslip_2),
.rx_block_lock(qsfp0_rx_block_lock_2),
.rx_high_ber()
);
assign qsfp0_tx_clk_3_int = clk_156mhz_int;
assign qsfp0_tx_rst_3_int = rst_156mhz_int;
assign qsfp0_rx_clk_3_int = gt_rxusrclk[6];
sync_reset #(
.N(4)
)
qsfp0_rx_rst_3_reset_sync_inst (
.clk(qsfp0_rx_clk_3_int),
.rst(~gt_reset_rx_done),
.out(qsfp0_rx_rst_3_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
)
qsfp0_phy_3_inst (
.tx_clk(qsfp0_tx_clk_3_int),
.tx_rst(qsfp0_tx_rst_3_int),
.rx_clk(qsfp0_rx_clk_3_int),
.rx_rst(qsfp0_rx_rst_3_int),
.xgmii_txd(qsfp0_txd_3_int),
.xgmii_txc(qsfp0_txc_3_int),
.xgmii_rxd(qsfp0_rxd_3_int),
.xgmii_rxc(qsfp0_rxc_3_int),
.serdes_tx_data(qsfp0_gt_txdata_3),
.serdes_tx_hdr(qsfp0_gt_txheader_3),
.serdes_rx_data(qsfp0_gt_rxdata_3),
.serdes_rx_hdr(qsfp0_gt_rxheader_3),
.serdes_rx_bitslip(qsfp0_gt_rxgearboxslip_3),
.rx_block_lock(qsfp0_rx_block_lock_3),
.rx_high_ber()
);
assign qsfp0_tx_clk_4_int = clk_156mhz_int;
assign qsfp0_tx_rst_4_int = rst_156mhz_int;
assign qsfp0_rx_clk_4_int = gt_rxusrclk[7];
sync_reset #(
.N(4)
)
qsfp0_rx_rst_4_reset_sync_inst (
.clk(qsfp0_rx_clk_4_int),
.rst(~gt_reset_rx_done),
.out(qsfp0_rx_rst_4_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
)
qsfp0_phy_4_inst (
.tx_clk(qsfp0_tx_clk_4_int),
.tx_rst(qsfp0_tx_rst_4_int),
.rx_clk(qsfp0_rx_clk_4_int),
.rx_rst(qsfp0_rx_rst_4_int),
.xgmii_txd(qsfp0_txd_4_int),
.xgmii_txc(qsfp0_txc_4_int),
.xgmii_rxd(qsfp0_rxd_4_int),
.xgmii_rxc(qsfp0_rxc_4_int),
.serdes_tx_data(qsfp0_gt_txdata_4),
.serdes_tx_hdr(qsfp0_gt_txheader_4),
.serdes_rx_data(qsfp0_gt_rxdata_4),
.serdes_rx_hdr(qsfp0_gt_rxheader_4),
.serdes_rx_bitslip(qsfp0_gt_rxgearboxslip_4),
.rx_block_lock(qsfp0_rx_block_lock_4),
.rx_high_ber()
);
assign qsfp1_tx_clk_1_int = clk_156mhz_int;
assign qsfp1_tx_rst_1_int = rst_156mhz_int;
assign qsfp1_rx_clk_1_int = gt_rxusrclk[0];
sync_reset #(
.N(4)
)
qsfp1_rx_rst_1_reset_sync_inst (
.clk(qsfp1_rx_clk_1_int),
.rst(~gt_reset_rx_done),
.out(qsfp1_rx_rst_1_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
eth_xcvr_phy_wrapper #(
.HAS_COMMON(1)
)
qsfp1_phy_1_inst (
.tx_clk(qsfp1_tx_clk_1_int),
.tx_rst(qsfp1_tx_rst_1_int),
.rx_clk(qsfp1_rx_clk_1_int),
.rx_rst(qsfp1_rx_rst_1_int),
.xgmii_txd(qsfp1_txd_1_int),
.xgmii_txc(qsfp1_txc_1_int),
.xgmii_rxd(qsfp1_rxd_1_int),
.xgmii_rxc(qsfp1_rxc_1_int),
.serdes_tx_data(qsfp1_gt_txdata_1),
.serdes_tx_hdr(qsfp1_gt_txheader_1),
.serdes_rx_data(qsfp1_gt_rxdata_1),
.serdes_rx_hdr(qsfp1_gt_rxheader_1),
.serdes_rx_bitslip(qsfp1_gt_rxgearboxslip_1),
.rx_block_lock(qsfp1_rx_block_lock_1),
.rx_high_ber()
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(qsfp1_mgt_refclk_1),
.xcvr_qpll0lock_out(qsfp1_qpll0lock),
.xcvr_qpll0outclk_out(qsfp1_qpll0outclk),
.xcvr_qpll0outrefclk_out(qsfp1_qpll0outrefclk),
// PLL in
.xcvr_qpll0lock_in(1'b0),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(1'b0),
.xcvr_qpll0refclk_in(1'b0),
// Serial data
.xcvr_txp(qsfp1_tx1_p),
.xcvr_txn(qsfp1_tx1_n),
.xcvr_rxp(qsfp1_rx1_p),
.xcvr_rxn(qsfp1_rx1_n),
// PHY connections
.phy_tx_clk(qsfp1_tx_clk_1_int),
.phy_tx_rst(qsfp1_tx_rst_1_int),
.phy_xgmii_txd(qsfp1_txd_1_int),
.phy_xgmii_txc(qsfp1_txc_1_int),
.phy_rx_clk(qsfp1_rx_clk_1_int),
.phy_rx_rst(qsfp1_rx_rst_1_int),
.phy_xgmii_rxd(qsfp1_rxd_1_int),
.phy_xgmii_rxc(qsfp1_rxc_1_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp1_rx_block_lock_1),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
assign qsfp1_tx_clk_2_int = clk_156mhz_int;
assign qsfp1_tx_rst_2_int = rst_156mhz_int;
assign qsfp1_rx_clk_2_int = gt_rxusrclk[1];
sync_reset #(
.N(4)
)
qsfp1_rx_rst_2_reset_sync_inst (
.clk(qsfp1_rx_clk_2_int),
.rst(~gt_reset_rx_done),
.out(qsfp1_rx_rst_2_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp1_phy_2_inst (
.tx_clk(qsfp1_tx_clk_2_int),
.tx_rst(qsfp1_tx_rst_2_int),
.rx_clk(qsfp1_rx_clk_2_int),
.rx_rst(qsfp1_rx_rst_2_int),
.xgmii_txd(qsfp1_txd_2_int),
.xgmii_txc(qsfp1_txc_2_int),
.xgmii_rxd(qsfp1_rxd_2_int),
.xgmii_rxc(qsfp1_rxc_2_int),
.serdes_tx_data(qsfp1_gt_txdata_2),
.serdes_tx_hdr(qsfp1_gt_txheader_2),
.serdes_rx_data(qsfp1_gt_rxdata_2),
.serdes_rx_hdr(qsfp1_gt_rxheader_2),
.serdes_rx_bitslip(qsfp1_gt_rxgearboxslip_2),
.rx_block_lock(qsfp1_rx_block_lock_2),
.rx_high_ber()
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp1_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp1_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp1_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp1_tx2_p),
.xcvr_txn(qsfp1_tx2_n),
.xcvr_rxp(qsfp1_rx2_p),
.xcvr_rxn(qsfp1_rx2_n),
// PHY connections
.phy_tx_clk(qsfp1_tx_clk_2_int),
.phy_tx_rst(qsfp1_tx_rst_2_int),
.phy_xgmii_txd(qsfp1_txd_2_int),
.phy_xgmii_txc(qsfp1_txc_2_int),
.phy_rx_clk(qsfp1_rx_clk_2_int),
.phy_rx_rst(qsfp1_rx_rst_2_int),
.phy_xgmii_rxd(qsfp1_rxd_2_int),
.phy_xgmii_rxc(qsfp1_rxc_2_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp1_rx_block_lock_2),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
assign qsfp1_tx_clk_3_int = clk_156mhz_int;
assign qsfp1_tx_rst_3_int = rst_156mhz_int;
assign qsfp1_rx_clk_3_int = gt_rxusrclk[2];
sync_reset #(
.N(4)
)
qsfp1_rx_rst_3_reset_sync_inst (
.clk(qsfp1_rx_clk_3_int),
.rst(~gt_reset_rx_done),
.out(qsfp1_rx_rst_3_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp1_phy_3_inst (
.tx_clk(qsfp1_tx_clk_3_int),
.tx_rst(qsfp1_tx_rst_3_int),
.rx_clk(qsfp1_rx_clk_3_int),
.rx_rst(qsfp1_rx_rst_3_int),
.xgmii_txd(qsfp1_txd_3_int),
.xgmii_txc(qsfp1_txc_3_int),
.xgmii_rxd(qsfp1_rxd_3_int),
.xgmii_rxc(qsfp1_rxc_3_int),
.serdes_tx_data(qsfp1_gt_txdata_3),
.serdes_tx_hdr(qsfp1_gt_txheader_3),
.serdes_rx_data(qsfp1_gt_rxdata_3),
.serdes_rx_hdr(qsfp1_gt_rxheader_3),
.serdes_rx_bitslip(qsfp1_gt_rxgearboxslip_3),
.rx_block_lock(qsfp1_rx_block_lock_3),
.rx_high_ber()
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp1_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp1_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp1_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp1_tx3_p),
.xcvr_txn(qsfp1_tx3_n),
.xcvr_rxp(qsfp1_rx3_p),
.xcvr_rxn(qsfp1_rx3_n),
// PHY connections
.phy_tx_clk(qsfp1_tx_clk_3_int),
.phy_tx_rst(qsfp1_tx_rst_3_int),
.phy_xgmii_txd(qsfp1_txd_3_int),
.phy_xgmii_txc(qsfp1_txc_3_int),
.phy_rx_clk(qsfp1_rx_clk_3_int),
.phy_rx_rst(qsfp1_rx_rst_3_int),
.phy_xgmii_rxd(qsfp1_rxd_3_int),
.phy_xgmii_rxc(qsfp1_rxc_3_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp1_rx_block_lock_3),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
assign qsfp1_tx_clk_4_int = clk_156mhz_int;
assign qsfp1_tx_rst_4_int = rst_156mhz_int;
assign qsfp1_rx_clk_4_int = gt_rxusrclk[3];
sync_reset #(
.N(4)
)
qsfp1_rx_rst_4_reset_sync_inst (
.clk(qsfp1_rx_clk_4_int),
.rst(~gt_reset_rx_done),
.out(qsfp1_rx_rst_4_int)
);
eth_phy_10g #(
.BIT_REVERSE(1)
eth_xcvr_phy_wrapper #(
.HAS_COMMON(0)
)
qsfp1_phy_4_inst (
.tx_clk(qsfp1_tx_clk_4_int),
.tx_rst(qsfp1_tx_rst_4_int),
.rx_clk(qsfp1_rx_clk_4_int),
.rx_rst(qsfp1_rx_rst_4_int),
.xgmii_txd(qsfp1_txd_4_int),
.xgmii_txc(qsfp1_txc_4_int),
.xgmii_rxd(qsfp1_rxd_4_int),
.xgmii_rxc(qsfp1_rxc_4_int),
.serdes_tx_data(qsfp1_gt_txdata_4),
.serdes_tx_hdr(qsfp1_gt_txheader_4),
.serdes_rx_data(qsfp1_gt_rxdata_4),
.serdes_rx_hdr(qsfp1_gt_rxheader_4),
.serdes_rx_bitslip(qsfp1_gt_rxgearboxslip_4),
.rx_block_lock(qsfp1_rx_block_lock_4),
.rx_high_ber()
.xcvr_ctrl_clk(clk_125mhz_int),
.xcvr_ctrl_rst(rst_125mhz_int),
// Common
.xcvr_gtpowergood_out(),
// PLL out
.xcvr_gtrefclk00_in(1'b0),
.xcvr_qpll0lock_out(),
.xcvr_qpll0outclk_out(),
.xcvr_qpll0outrefclk_out(),
// PLL in
.xcvr_qpll0lock_in(qsfp1_qpll0lock),
.xcvr_qpll0reset_out(),
.xcvr_qpll0clk_in(qsfp1_qpll0outclk),
.xcvr_qpll0refclk_in(qsfp1_qpll0outrefclk),
// Serial data
.xcvr_txp(qsfp1_tx4_p),
.xcvr_txn(qsfp1_tx4_n),
.xcvr_rxp(qsfp1_rx4_p),
.xcvr_rxn(qsfp1_rx4_n),
// PHY connections
.phy_tx_clk(qsfp1_tx_clk_4_int),
.phy_tx_rst(qsfp1_tx_rst_4_int),
.phy_xgmii_txd(qsfp1_txd_4_int),
.phy_xgmii_txc(qsfp1_txc_4_int),
.phy_rx_clk(qsfp1_rx_clk_4_int),
.phy_rx_rst(qsfp1_rx_rst_4_int),
.phy_xgmii_rxd(qsfp1_rxd_4_int),
.phy_xgmii_rxc(qsfp1_rxc_4_int),
.phy_rx_error_count(),
.phy_rx_bad_block(),
.phy_rx_sequence_error(),
.phy_rx_block_lock(qsfp1_rx_block_lock_4),
.phy_rx_high_ber(),
.phy_tx_prbs31_enable(),
.phy_rx_prbs31_enable()
);
fpga_core

2
example/VCU1525/fpga_10g/rtl/fpga_core.v
View File

@ -1,6 +1,6 @@
/*
Copyright (c) 2014-2018 Alex Forencich
Copyright (c) 2014-2021 Alex Forencich
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal