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Add KC705 GMII example design

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Alex Forencich 2019-05-02 19:29:47 -07:00
parent 696c634726
commit 1d61626785
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example/KC705/fpga_gmii/Makefile Normal file
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# Targets
TARGETS:=
# Subdirectories
SUBDIRS = fpga
SUBDIRS_CLEAN = $(patsubst %,%.clean,$(SUBDIRS))
# Rules
.PHONY: all
all: $(SUBDIRS) $(TARGETS)
.PHONY: $(SUBDIRS)
$(SUBDIRS):
cd $@ && $(MAKE)
.PHONY: $(SUBDIRS_CLEAN)
$(SUBDIRS_CLEAN):
cd $(@:.clean=) && $(MAKE) clean
.PHONY: clean
clean: $(SUBDIRS_CLEAN)
-rm -rf $(TARGETS)
program:
#djtgcfg prog -d Atlys --index 0 --file fpga/fpga.bit

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example/KC705/fpga_gmii/README.md Normal file
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# Verilog Ethernet KC705 Example Design
## Introduction
This example design targets the Xilinx KC705 FPGA board.
The design by default listens to UDP port 1234 at IP address 192.168.1.128 and
will echo back any packets received. The design will also respond correctly
to ARP requests.
Configure the PHY for GMII by placing J29 and J30 across pins 1 and 2 and
opening J64.
FPGA: XC7K325T-2FFG900C
PHY: Marvell 88E1111
## How to build
Run make to build. Ensure that the Xilinx Vivado toolchain components are
in PATH.
## How to test
Run make program to program the KC705 board with Vivado. Then run netcat -u
192.168.1.128 1234 to open a UDP connection to port 1234. Any text entered
into netcat will be echoed back after pressing enter.

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example/KC705/fpga_gmii/clock.xdc Normal file
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# Clock constraints
# BUFGMUX outputs
set_clock_groups -physically_exclusive -group clk_mmcm_out -group phy_tx_clk

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example/KC705/fpga_gmii/common/vivado.mk Normal file
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###################################################################
#
# Xilinx Vivado FPGA Makefile
#
# Copyright (c) 2016 Alex Forencich
#
###################################################################
#
# Parameters:
# FPGA_TOP - Top module name
# FPGA_FAMILY - FPGA family (e.g. VirtexUltrascale)
# FPGA_DEVICE - FPGA device (e.g. xcvu095-ffva2104-2-e)
# SYN_FILES - space-separated list of source files
# INC_FILES - space-separated list of include files
# XDC_FILES - space-separated list of timing constraint files
# XCI_FILES - space-separated list of IP XCI files
#
# Example:
#
# FPGA_TOP = fpga
# FPGA_FAMILY = VirtexUltrascale
# FPGA_DEVICE = xcvu095-ffva2104-2-e
# SYN_FILES = rtl/fpga.v
# XDC_FILES = fpga.xdc
# XCI_FILES = ip/pcspma.xci
# include ../common/vivado.mk
#
###################################################################
# phony targets
.PHONY: clean fpga
# prevent make from deleting intermediate files and reports
.PRECIOUS: %.xpr %.bit
.SECONDARY:
CONFIG ?= config.mk
-include ../$(CONFIG)
SYN_FILES_REL = $(patsubst %, ../%, $(SYN_FILES))
INC_FILES_REL = $(patsubst %, ../%, $(INC_FILES))
XCI_FILES_REL = $(patsubst %, ../%, $(XCI_FILES))
ifdef XDC_FILES
XDC_FILES_REL = $(patsubst %, ../%, $(XDC_FILES))
else
XDC_FILES_REL = $(FPGA_TOP).xdc
endif
###################################################################
# Main Targets
#
# all: build everything
# clean: remove output files and project files
###################################################################
all: fpga
fpga: $(FPGA_TOP).bit
tmpclean:
-rm -rf *.log *.jou *.cache *.hw *.ip_user_files *.runs *.xpr *.html *.xml *.sim *.srcs *.str .Xil defines.v
-rm -rf create_project.tcl run_synth.tcl run_impl.tcl generate_bit.tcl
clean: tmpclean
-rm -rf *.bit program.tcl
distclean: clean
-rm -rf rev
###################################################################
# Target implementations
###################################################################
# Vivado project file
%.xpr: Makefile $(XCI_FILES_REL)
rm -rf defines.v
touch defines.v
for x in $(DEFS); do echo '`define' $$x >> defines.v; done
echo "create_project -force -part $(FPGA_PART) $*" > create_project.tcl
echo "add_files -fileset sources_1 defines.v" >> create_project.tcl
for x in $(SYN_FILES_REL); do echo "add_files -fileset sources_1 $$x" >> create_project.tcl; done
for x in $(XDC_FILES_REL); do echo "add_files -fileset constrs_1 $$x" >> create_project.tcl; done
for x in $(XCI_FILES_REL); do echo "import_ip $$x" >> create_project.tcl; done
echo "exit" >> create_project.tcl
vivado -mode batch -source create_project.tcl
# synthesis run
%.runs/synth_1/%.dcp: %.xpr $(SYN_FILES_REL) $(INC_FILES_REL) $(XDC_FILES_REL)
echo "open_project $*.xpr" > run_synth.tcl
echo "reset_run synth_1" >> run_synth.tcl
echo "launch_runs synth_1" >> run_synth.tcl
echo "wait_on_run synth_1" >> run_synth.tcl
echo "exit" >> run_synth.tcl
vivado -mode batch -source run_synth.tcl
# implementation run
%.runs/impl_1/%_routed.dcp: %.runs/synth_1/%.dcp
echo "open_project $*.xpr" > run_impl.tcl
echo "reset_run impl_1" >> run_impl.tcl
echo "launch_runs impl_1" >> run_impl.tcl
echo "wait_on_run impl_1" >> run_impl.tcl
echo "exit" >> run_impl.tcl
vivado -mode batch -source run_impl.tcl
# bit file
%.bit: %.runs/impl_1/%_routed.dcp
echo "open_project $*.xpr" > generate_bit.tcl
echo "open_run impl_1" >> generate_bit.tcl
echo "write_bitstream -force $*.bit" >> generate_bit.tcl
echo "exit" >> generate_bit.tcl
vivado -mode batch -source generate_bit.tcl
mkdir -p rev
EXT=bit; COUNT=100; \
while [ -e rev/$*_rev$$COUNT.$$EXT ]; \
do let COUNT=COUNT+1; done; \
cp $@ rev/$*_rev$$COUNT.$$EXT; \
echo "Output: rev/$*_rev$$COUNT.$$EXT";

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example/KC705/fpga_gmii/fpga.xdc Normal file
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# XDC constraints for the Xilinx KC705 board
# part: xc7k325tffg900-2
# General configuration
set_property CFGBVS VCCO [current_design]
set_property CONFIG_VOLTAGE 2.5 [current_design]
set_property BITSTREAM.GENERAL.COMPRESS true [current_design]
# System clocks
# 200 MHz
set_property -dict {LOC AD12 IOSTANDARD LVDS} [get_ports clk_200mhz_p]
set_property -dict {LOC AD11 IOSTANDARD LVDS} [get_ports clk_200mhz_n]
create_clock -period 5.000 -name clk_200mhz [get_ports clk_200mhz_p]
# LEDs
set_property -dict {LOC AB8 IOSTANDARD LVCMOS15 SLEW SLOW DRIVE 12} [get_ports {led[0]}]
set_property -dict {LOC AA8 IOSTANDARD LVCMOS15 SLEW SLOW DRIVE 12} [get_ports {led[1]}]
set_property -dict {LOC AC9 IOSTANDARD LVCMOS15 SLEW SLOW DRIVE 12} [get_ports {led[2]}]
set_property -dict {LOC AB9 IOSTANDARD LVCMOS15 SLEW SLOW DRIVE 12} [get_ports {led[3]}]
set_property -dict {LOC AE26 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports {led[4]}]
set_property -dict {LOC G19 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports {led[5]}]
set_property -dict {LOC E18 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports {led[6]}]
set_property -dict {LOC F16 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports {led[7]}]
# Reset button
set_property -dict {LOC AB7 IOSTANDARD LVCMOS15} [get_ports reset]
# Push buttons
set_property -dict {LOC AA12 IOSTANDARD LVCMOS15} [get_ports btnu]
set_property -dict {LOC AC6 IOSTANDARD LVCMOS15} [get_ports btnl]
set_property -dict {LOC AB12 IOSTANDARD LVCMOS15} [get_ports btnd]
set_property -dict {LOC AG5 IOSTANDARD LVCMOS15} [get_ports btnr]
set_property -dict {LOC G12 IOSTANDARD LVCMOS25} [get_ports btnc]
# Toggle switches
set_property -dict {LOC Y29 IOSTANDARD LVCMOS25} [get_ports {sw[0]}]
set_property -dict {LOC W29 IOSTANDARD LVCMOS25} [get_ports {sw[1]}]
set_property -dict {LOC AA28 IOSTANDARD LVCMOS25} [get_ports {sw[2]}]
set_property -dict {LOC Y28 IOSTANDARD LVCMOS25} [get_ports {sw[3]}]
# UART
set_property -dict {LOC K24 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports uart_txd]
set_property -dict {LOC M19 IOSTANDARD LVCMOS25} [get_ports uart_rxd]
set_property -dict {LOC L27 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports uart_rts]
set_property -dict {LOC K23 IOSTANDARD LVCMOS25} [get_ports uart_cts]
# Gigabit Ethernet GMII PHY
set_property -dict {LOC U27 IOSTANDARD LVCMOS25} [get_ports phy_rx_clk]
set_property -dict {LOC U30 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[0]}]
set_property -dict {LOC U25 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[1]}]
set_property -dict {LOC T25 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[2]}]
set_property -dict {LOC U28 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[3]}]
set_property -dict {LOC R19 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[4]}]
set_property -dict {LOC T27 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[5]}]
set_property -dict {LOC T26 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[6]}]
set_property -dict {LOC T28 IOSTANDARD LVCMOS25} [get_ports {phy_rxd[7]}]
set_property -dict {LOC R28 IOSTANDARD LVCMOS25} [get_ports phy_rx_dv]
set_property -dict {LOC V26 IOSTANDARD LVCMOS25} [get_ports phy_rx_er]
set_property -dict {LOC K30 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports phy_gtx_clk]
set_property -dict {LOC M28 IOSTANDARD LVCMOS25} [get_ports phy_tx_clk]
set_property -dict {LOC N27 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[0]}]
set_property -dict {LOC N25 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[1]}]
set_property -dict {LOC M29 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[2]}]
set_property -dict {LOC L28 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[3]}]
set_property -dict {LOC J26 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[4]}]
set_property -dict {LOC K26 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[5]}]
set_property -dict {LOC L30 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[6]}]
set_property -dict {LOC J28 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports {phy_txd[7]}]
set_property -dict {LOC M27 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports phy_tx_en]
set_property -dict {LOC N29 IOSTANDARD LVCMOS25 SLEW FAST DRIVE 16} [get_ports phy_tx_er]
set_property -dict {LOC L20 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports phy_reset_n]
set_property -dict {LOC N30 IOSTANDARD LVCMOS25} [get_ports phy_int_n]
#set_property -dict {LOC J21 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports phy_mdio]
#set_property -dict {LOC R23 IOSTANDARD LVCMOS25 SLEW SLOW DRIVE 12} [get_ports phy_mdc]
create_clock -period 40.000 -name phy_tx_clk [get_ports phy_tx_clk]
create_clock -period 8.000 -name phy_rx_clk [get_ports phy_rx_clk]

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example/KC705/fpga_gmii/fpga/Makefile Normal file
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# FPGA settings
FPGA_PART = xc7k325tffg900-2
FPGA_TOP = fpga
FPGA_ARCH = kintex7
# Files for synthesis
SYN_FILES = rtl/fpga.v
SYN_FILES += rtl/fpga_core.v
SYN_FILES += rtl/debounce_switch.v
SYN_FILES += rtl/sync_reset.v
SYN_FILES += rtl/sync_signal.v
SYN_FILES += lib/eth/rtl/oddr.v
SYN_FILES += lib/eth/rtl/ssio_sdr_in.v
SYN_FILES += lib/eth/rtl/ssio_sdr_out.v
SYN_FILES += lib/eth/rtl/gmii_phy_if.v
SYN_FILES += lib/eth/rtl/eth_mac_1g_gmii_fifo.v
SYN_FILES += lib/eth/rtl/eth_mac_1g_gmii.v
SYN_FILES += lib/eth/rtl/eth_mac_1g.v
SYN_FILES += lib/eth/rtl/axis_gmii_rx.v
SYN_FILES += lib/eth/rtl/axis_gmii_tx.v
SYN_FILES += lib/eth/rtl/lfsr.v
SYN_FILES += lib/eth/rtl/eth_axis_rx.v
SYN_FILES += lib/eth/rtl/eth_axis_tx.v
SYN_FILES += lib/eth/rtl/udp_complete.v
SYN_FILES += lib/eth/rtl/udp_checksum_gen.v
SYN_FILES += lib/eth/rtl/udp.v
SYN_FILES += lib/eth/rtl/udp_ip_rx.v
SYN_FILES += lib/eth/rtl/udp_ip_tx.v
SYN_FILES += lib/eth/rtl/ip_complete.v
SYN_FILES += lib/eth/rtl/ip.v
SYN_FILES += lib/eth/rtl/ip_eth_rx.v
SYN_FILES += lib/eth/rtl/ip_eth_tx.v
SYN_FILES += lib/eth/rtl/ip_arb_mux.v
SYN_FILES += lib/eth/rtl/arp.v
SYN_FILES += lib/eth/rtl/arp_cache.v
SYN_FILES += lib/eth/rtl/arp_eth_rx.v
SYN_FILES += lib/eth/rtl/arp_eth_tx.v
SYN_FILES += lib/eth/rtl/eth_arb_mux.v
SYN_FILES += lib/eth/lib/axis/rtl/arbiter.v
SYN_FILES += lib/eth/lib/axis/rtl/priority_encoder.v
SYN_FILES += lib/eth/lib/axis/rtl/axis_fifo.v
SYN_FILES += lib/eth/lib/axis/rtl/axis_async_fifo.v
# XDC files
XDC_FILES = fpga.xdc
XDC_FILES += clock.xdc
XDC_FILES += lib/eth/syn/gmii_phy_if.tcl
XDC_FILES += lib/eth/syn/eth_mac_1g_gmii.tcl
XDC_FILES += lib/eth/syn/eth_mac_fifo.tcl
XDC_FILES += lib/eth/lib/axis/syn/axis_async_fifo.tcl
include ../common/vivado.mk
program: $(FPGA_TOP).bit
echo "open_hw" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [lindex [get_hw_devices] 0]" >> program.tcl
echo "set_property PROGRAM.FILE {$(FPGA_TOP).bit} [lindex [get_hw_devices] 0]" >> program.tcl
echo "program_hw_devices [lindex [get_hw_devices] 0]" >> program.tcl
echo "exit" >> program.tcl
vivado -mode batch -source program.tcl

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example/KC705/fpga_gmii/lib/eth Symbolic link
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../../../../

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example/KC705/fpga_gmii/rtl/debounce_switch.v Normal file
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/*
Copyright (c) 2014-2018 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 1 ns / 1 ps
/*
* Synchronizes switch and button inputs with a slow sampled shift register
*/
module debounce_switch #(
parameter WIDTH=1, // width of the input and output signals
parameter N=3, // length of shift register
parameter RATE=125000 // clock division factor
)(
input wire clk,
input wire rst,
input wire [WIDTH-1:0] in,
output wire [WIDTH-1:0] out
);
reg [23:0] cnt_reg = 24'd0;
reg [N-1:0] debounce_reg[WIDTH-1:0];
reg [WIDTH-1:0] state;
/*
* The synchronized output is the state register
*/
assign out = state;
integer k;
always @(posedge clk or posedge rst) begin
if (rst) begin
cnt_reg <= 0;
state <= 0;
for (k = 0; k < WIDTH; k = k + 1) begin
debounce_reg[k] <= 0;
end
end else begin
if (cnt_reg < RATE) begin
cnt_reg <= cnt_reg + 24'd1;
end else begin
cnt_reg <= 24'd0;
end
if (cnt_reg == 24'd0) begin
for (k = 0; k < WIDTH; k = k + 1) begin
debounce_reg[k] <= {debounce_reg[k][N-2:0], in[k]};
end
end
for (k = 0; k < WIDTH; k = k + 1) begin
if (|debounce_reg[k] == 0) begin
state[k] <= 0;
end else if (&debounce_reg[k] == 1) begin
state[k] <= 1;
end else begin
state[k] <= state[k];
end
end
end
end
endmodule

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example/KC705/fpga_gmii/rtl/fpga.v Normal file
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/*
Copyright (c) 2014-2018 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
/*
* FPGA top-level module
*/
module fpga (
/*
* Clock: 200MHz
* Reset: Push button, active high
*/
input wire clk_200mhz_p,
input wire clk_200mhz_n,
input wire reset,
/*
* GPIO
*/
input wire btnu,
input wire btnl,
input wire btnd,
input wire btnr,
input wire btnc,
input wire [3:0] sw,
output wire [7:0] led,
/*
* Ethernet: 1000BASE-T GMII
*/
input wire phy_rx_clk,
input wire [7:0] phy_rxd,
input wire phy_rx_dv,
input wire phy_rx_er,
output wire phy_gtx_clk,
input wire phy_tx_clk,
output wire [7:0] phy_txd,
output wire phy_tx_en,
output wire phy_tx_er,
output wire phy_reset_n,
input wire phy_int_n,
/*
* UART: 500000 bps, 8N1
*/
input wire uart_rxd,
output wire uart_txd,
output wire uart_rts,
input wire uart_cts
);
// Clock and reset
wire clk_200mhz_ibufg;
wire clk_200mhz_bufg;
wire clk_200mhz_mmcm_out;
// Internal 125 MHz clock
wire clk_200mhz_int;
wire rst_int;
wire mmcm_rst = reset;
wire mmcm_locked;
wire mmcm_clkfb;
IBUFGDS
clk_200mhz_ibufgds_inst(
.I(clk_200mhz_p),
.IB(clk_200mhz_n),
.O(clk_200mhz_ibufg)
);
// MMCM instance
// 200 MHz in, 125 MHz out
// PFD range: 10 MHz to 500 MHz
// VCO range: 600 MHz to 1440 MHz
// M = 5, D = 1 sets Fvco = 1000 MHz (in range)
// Divide by 8 to get output frequency of 125 MHz
MMCME2_BASE #(
.BANDWIDTH("OPTIMIZED"),
.CLKOUT0_DIVIDE_F(8),
.CLKOUT0_DUTY_CYCLE(0.5),
.CLKOUT0_PHASE(0),
.CLKOUT1_DIVIDE(8),
.CLKOUT1_DUTY_CYCLE(0.5),
.CLKOUT1_PHASE(0),
.CLKOUT2_DIVIDE(1),
.CLKOUT2_DUTY_CYCLE(0.5),
.CLKOUT2_PHASE(0),
.CLKOUT3_DIVIDE(1),
.CLKOUT3_DUTY_CYCLE(0.5),
.CLKOUT3_PHASE(0),
.CLKOUT4_DIVIDE(1),
.CLKOUT4_DUTY_CYCLE(0.5),
.CLKOUT4_PHASE(0),
.CLKOUT5_DIVIDE(1),
.CLKOUT5_DUTY_CYCLE(0.5),
.CLKOUT5_PHASE(0),
.CLKOUT6_DIVIDE(1),
.CLKOUT6_DUTY_CYCLE(0.5),
.CLKOUT6_PHASE(0),
.CLKFBOUT_MULT_F(5),
.CLKFBOUT_PHASE(0),
.DIVCLK_DIVIDE(1),
.REF_JITTER1(0.010),
.CLKIN1_PERIOD(5.0),
.STARTUP_WAIT("FALSE"),
.CLKOUT4_CASCADE("FALSE")
)
clk_mmcm_inst (
.CLKIN1(clk_200mhz_ibufg),
.CLKFBIN(mmcm_clkfb),
.RST(mmcm_rst),
.PWRDWN(1'b0),
.CLKOUT0(clk_mmcm_out),
.CLKOUT0B(),
.CLKOUT1(),
.CLKOUT1B(),
.CLKOUT2(),
.CLKOUT2B(),
.CLKOUT3(),
.CLKOUT3B(),
.CLKOUT4(),
.CLKOUT5(),
.CLKOUT6(),
.CLKFBOUT(mmcm_clkfb),
.CLKFBOUTB(),
.LOCKED(mmcm_locked)
);
BUFG
clk_bufg_inst (
.I(clk_mmcm_out),
.O(clk_int)
);
sync_reset #(
.N(4)
)
sync_reset_inst (
.clk(clk_int),
.rst(~mmcm_locked),
.sync_reset_out(rst_int)
);
// GPIO
wire btnu_int;
wire btnl_int;
wire btnd_int;
wire btnr_int;
wire btnc_int;
wire [3:0] sw_int;
debounce_switch #(
.WIDTH(9),
.N(4),
.RATE(125000)
)
debounce_switch_inst (
.clk(clk_int),
.rst(rst_int),
.in({btnu,
btnl,
btnd,
btnr,
btnc,
sw}),
.out({btnu_int,
btnl_int,
btnd_int,
btnr_int,
btnc_int,
sw_int})
);
wire uart_rxd_int;
wire uart_cts_int;
sync_signal #(
.WIDTH(2),
.N(2)
)
sync_signal_inst (
.clk(clk_int),
.in({uart_rxd, uart_cts}),
.out({uart_rxd_int, uart_cts_int})
);
fpga_core
core_inst (
/*
* Clock: 125MHz
* Synchronous reset
*/
.clk(clk_int),
.rst(rst_int),
/*
* GPIO
*/
.btnu(btnu_int),
.btnl(btnl_int),
.btnd(btnd_int),
.btnr(btnr_int),
.btnc(btnc_int),
.sw(sw_int),
.led(led),
/*
* Ethernet: 1000BASE-T GMII
*/
.phy_rx_clk(phy_rx_clk),
.phy_rxd(phy_rxd),
.phy_rx_dv(phy_rx_dv),
.phy_rx_er(phy_rx_er),
.phy_gtx_clk(phy_gtx_clk),
.phy_tx_clk(phy_tx_clk),
.phy_txd(phy_txd),
.phy_tx_en(phy_tx_en),
.phy_tx_er(phy_tx_er),
.phy_reset_n(phy_reset_n),
.phy_int_n(phy_int_n),
/*
* UART: 115200 bps, 8N1
*/
.uart_rxd(uart_rxd_int),
.uart_txd(uart_txd),
.uart_rts(uart_rts),
.uart_cts(uart_cts_int)
);
endmodule

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example/KC705/fpga_gmii/rtl/fpga_core.v Normal file
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/*
Copyright (c) 2014-2018 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
/*
* FPGA core logic
*/
module fpga_core #
(
parameter TARGET = "XILINX"
)
(
/*
* Clock: 125MHz
* Synchronous reset
*/
input wire clk,
input wire rst,
/*
* GPIO
*/
input wire btnu,
input wire btnl,
input wire btnd,
input wire btnr,
input wire btnc,
input wire [7:0] sw,
output wire [7:0] led,
/*
* Ethernet: 1000BASE-T GMII
*/
input wire phy_rx_clk,
input wire [7:0] phy_rxd,
input wire phy_rx_dv,
input wire phy_rx_er,
output wire phy_gtx_clk,
input wire phy_tx_clk,
output wire [7:0] phy_txd,
output wire phy_tx_en,
output wire phy_tx_er,
output wire phy_reset_n,
input wire phy_int_n,
/*
* UART: 115200 bps, 8N1
*/
input wire uart_rxd,
output wire uart_txd,
output wire uart_rts,
input wire uart_cts
);
// AXI between MAC and Ethernet modules
wire [7:0] rx_axis_tdata;
wire rx_axis_tvalid;
wire rx_axis_tready;
wire rx_axis_tlast;
wire rx_axis_tuser;
wire [7:0] tx_axis_tdata;
wire tx_axis_tvalid;
wire tx_axis_tready;
wire tx_axis_tlast;
wire tx_axis_tuser;
// Ethernet frame between Ethernet modules and UDP stack
wire rx_eth_hdr_ready;
wire rx_eth_hdr_valid;
wire [47:0] rx_eth_dest_mac;
wire [47:0] rx_eth_src_mac;
wire [15:0] rx_eth_type;
wire [7:0] rx_eth_payload_axis_tdata;
wire rx_eth_payload_axis_tvalid;
wire rx_eth_payload_axis_tready;
wire rx_eth_payload_axis_tlast;
wire rx_eth_payload_axis_tuser;
wire tx_eth_hdr_ready;
wire tx_eth_hdr_valid;
wire [47:0] tx_eth_dest_mac;
wire [47:0] tx_eth_src_mac;
wire [15:0] tx_eth_type;
wire [7:0] tx_eth_payload_axis_tdata;
wire tx_eth_payload_axis_tvalid;
wire tx_eth_payload_axis_tready;
wire tx_eth_payload_axis_tlast;
wire tx_eth_payload_axis_tuser;
// IP frame connections
wire rx_ip_hdr_valid;
wire rx_ip_hdr_ready;
wire [47:0] rx_ip_eth_dest_mac;
wire [47:0] rx_ip_eth_src_mac;
wire [15:0] rx_ip_eth_type;
wire [3:0] rx_ip_version;
wire [3:0] rx_ip_ihl;
wire [5:0] rx_ip_dscp;
wire [1:0] rx_ip_ecn;
wire [15:0] rx_ip_length;
wire [15:0] rx_ip_identification;
wire [2:0] rx_ip_flags;
wire [12:0] rx_ip_fragment_offset;
wire [7:0] rx_ip_ttl;
wire [7:0] rx_ip_protocol;
wire [15:0] rx_ip_header_checksum;
wire [31:0] rx_ip_source_ip;
wire [31:0] rx_ip_dest_ip;
wire [7:0] rx_ip_payload_axis_tdata;
wire rx_ip_payload_axis_tvalid;
wire rx_ip_payload_axis_tready;
wire rx_ip_payload_axis_tlast;
wire rx_ip_payload_axis_tuser;
wire tx_ip_hdr_valid;
wire tx_ip_hdr_ready;
wire [5:0] tx_ip_dscp;
wire [1:0] tx_ip_ecn;
wire [15:0] tx_ip_length;
wire [7:0] tx_ip_ttl;
wire [7:0] tx_ip_protocol;
wire [31:0] tx_ip_source_ip;
wire [31:0] tx_ip_dest_ip;
wire [7:0] tx_ip_payload_axis_tdata;
wire tx_ip_payload_axis_tvalid;
wire tx_ip_payload_axis_tready;
wire tx_ip_payload_axis_tlast;
wire tx_ip_payload_axis_tuser;
// UDP frame connections
wire rx_udp_hdr_valid;
wire rx_udp_hdr_ready;
wire [47:0] rx_udp_eth_dest_mac;
wire [47:0] rx_udp_eth_src_mac;
wire [15:0] rx_udp_eth_type;
wire [3:0] rx_udp_ip_version;
wire [3:0] rx_udp_ip_ihl;
wire [5:0] rx_udp_ip_dscp;
wire [1:0] rx_udp_ip_ecn;
wire [15:0] rx_udp_ip_length;
wire [15:0] rx_udp_ip_identification;
wire [2:0] rx_udp_ip_flags;
wire [12:0] rx_udp_ip_fragment_offset;
wire [7:0] rx_udp_ip_ttl;
wire [7:0] rx_udp_ip_protocol;
wire [15:0] rx_udp_ip_header_checksum;
wire [31:0] rx_udp_ip_source_ip;
wire [31:0] rx_udp_ip_dest_ip;
wire [15:0] rx_udp_source_port;
wire [15:0] rx_udp_dest_port;
wire [15:0] rx_udp_length;
wire [15:0] rx_udp_checksum;
wire [7:0] rx_udp_payload_axis_tdata;
wire rx_udp_payload_axis_tvalid;
wire rx_udp_payload_axis_tready;
wire rx_udp_payload_axis_tlast;
wire rx_udp_payload_axis_tuser;
wire tx_udp_hdr_valid;
wire tx_udp_hdr_ready;
wire [5:0] tx_udp_ip_dscp;
wire [1:0] tx_udp_ip_ecn;
wire [7:0] tx_udp_ip_ttl;
wire [31:0] tx_udp_ip_source_ip;
wire [31:0] tx_udp_ip_dest_ip;
wire [15:0] tx_udp_source_port;
wire [15:0] tx_udp_dest_port;
wire [15:0] tx_udp_length;
wire [15:0] tx_udp_checksum;
wire [7:0] tx_udp_payload_axis_tdata;
wire tx_udp_payload_axis_tvalid;
wire tx_udp_payload_axis_tready;
wire tx_udp_payload_axis_tlast;
wire tx_udp_payload_axis_tuser;
wire [7:0] rx_fifo_udp_payload_axis_tdata;
wire rx_fifo_udp_payload_axis_tvalid;
wire rx_fifo_udp_payload_axis_tready;
wire rx_fifo_udp_payload_axis_tlast;
wire rx_fifo_udp_payload_axis_tuser;
wire [7:0] tx_fifo_udp_payload_axis_tdata;
wire tx_fifo_udp_payload_axis_tvalid;
wire tx_fifo_udp_payload_axis_tready;
wire tx_fifo_udp_payload_axis_tlast;
wire tx_fifo_udp_payload_axis_tuser;
// Configuration
wire [47:0] local_mac = 48'h02_00_00_00_00_00;
wire [31:0] local_ip = {8'd192, 8'd168, 8'd1, 8'd128};
wire [31:0] gateway_ip = {8'd192, 8'd168, 8'd1, 8'd1};
wire [31:0] subnet_mask = {8'd255, 8'd255, 8'd255, 8'd0};
// IP ports not used
assign rx_ip_hdr_ready = 1;
assign rx_ip_payload_axis_tready = 1;
assign tx_ip_hdr_valid = 0;
assign tx_ip_dscp = 0;
assign tx_ip_ecn = 0;
assign tx_ip_length = 0;
assign tx_ip_ttl = 0;
assign tx_ip_protocol = 0;
assign tx_ip_source_ip = 0;
assign tx_ip_dest_ip = 0;
assign tx_ip_payload_axis_tdata = 0;
assign tx_ip_payload_axis_tvalid = 0;
assign tx_ip_payload_axis_tlast = 0;
assign tx_ip_payload_axis_tuser = 0;
// Loop back UDP
wire match_cond = rx_udp_dest_port == 1234;
wire no_match = !match_cond;
reg match_cond_reg = 0;
reg no_match_reg = 0;
always @(posedge clk) begin
if (rst) begin
match_cond_reg <= 0;
no_match_reg <= 0;
end else begin
if (rx_udp_payload_axis_tvalid) begin
if ((!match_cond_reg && !no_match_reg) ||
(rx_udp_payload_axis_tvalid && rx_udp_payload_axis_tready && rx_udp_payload_axis_tlast)) begin
match_cond_reg <= match_cond;
no_match_reg <= no_match;
end
end else begin
match_cond_reg <= 0;
no_match_reg <= 0;
end
end
end
assign tx_udp_hdr_valid = rx_udp_hdr_valid && match_cond;
assign rx_udp_hdr_ready = (tx_eth_hdr_ready && match_cond) || no_match;
assign tx_udp_ip_dscp = 0;
assign tx_udp_ip_ecn = 0;
assign tx_udp_ip_ttl = 64;
assign tx_udp_ip_source_ip = local_ip;
assign tx_udp_ip_dest_ip = rx_udp_ip_source_ip;
assign tx_udp_source_port = rx_udp_dest_port;
assign tx_udp_dest_port = rx_udp_source_port;
assign tx_udp_length = rx_udp_length;
assign tx_udp_checksum = 0;
assign tx_udp_payload_axis_tdata = tx_fifo_udp_payload_axis_tdata;
assign tx_udp_payload_axis_tvalid = tx_fifo_udp_payload_axis_tvalid;
assign tx_fifo_udp_payload_axis_tready = tx_udp_payload_axis_tready;
assign tx_udp_payload_axis_tlast = tx_fifo_udp_payload_axis_tlast;
assign tx_udp_payload_axis_tuser = tx_fifo_udp_payload_axis_tuser;
assign rx_fifo_udp_payload_axis_tdata = rx_udp_payload_axis_tdata;
assign rx_fifo_udp_payload_axis_tvalid = rx_udp_payload_axis_tvalid && match_cond_reg;
assign rx_udp_payload_axis_tready = (rx_fifo_udp_payload_axis_tready && match_cond_reg) || no_match_reg;
assign rx_fifo_udp_payload_axis_tlast = rx_udp_payload_axis_tlast;
assign rx_fifo_udp_payload_axis_tuser = rx_udp_payload_axis_tuser;
// Place first payload byte onto LEDs
reg valid_last = 0;
reg [7:0] led_reg = 0;
always @(posedge clk) begin
if (rst) begin
led_reg <= 0;
end else begin
if (tx_udp_payload_axis_tvalid) begin
if (!valid_last) begin
led_reg <= tx_udp_payload_axis_tdata;
valid_last <= 1'b1;
end
if (tx_udp_payload_axis_tlast) begin
valid_last <= 1'b0;
end
end
end
end
//assign led = sw;
assign led = led_reg;
assign phy_reset_n = !rst;
assign uart_txd = 0;
assign uart_rts = 0;
eth_mac_1g_gmii_fifo #(
.TARGET(TARGET),
.IODDR_STYLE("IODDR"),
.CLOCK_INPUT_STYLE("BUFR"),
.ENABLE_PADDING(1),
.MIN_FRAME_LENGTH(64),
.TX_FIFO_ADDR_WIDTH(12),
.TX_FRAME_FIFO(1),
.RX_FIFO_ADDR_WIDTH(12),
.RX_FRAME_FIFO(1)
)
eth_mac_inst (
.gtx_clk(clk),
.gtx_rst(rst),
.logic_clk(clk),
.logic_rst(rst),
.tx_axis_tdata(tx_axis_tdata),
.tx_axis_tvalid(tx_axis_tvalid),
.tx_axis_tready(tx_axis_tready),
.tx_axis_tlast(tx_axis_tlast),
.tx_axis_tuser(tx_axis_tuser),
.rx_axis_tdata(rx_axis_tdata),
.rx_axis_tvalid(rx_axis_tvalid),
.rx_axis_tready(rx_axis_tready),
.rx_axis_tlast(rx_axis_tlast),
.rx_axis_tuser(rx_axis_tuser),
.gmii_rx_clk(phy_rx_clk),
.gmii_rxd(phy_rxd),
.gmii_rx_dv(phy_rx_dv),
.gmii_rx_er(phy_rx_er),
.gmii_tx_clk(phy_gtx_clk),
.mii_tx_clk(phy_tx_clk),
.gmii_txd(phy_txd),
.gmii_tx_en(phy_tx_en),
.gmii_tx_er(phy_tx_er),
.tx_fifo_overflow(),
.tx_fifo_bad_frame(),
.tx_fifo_good_frame(),
.rx_error_bad_frame(),
.rx_error_bad_fcs(),
.rx_fifo_overflow(),
.rx_fifo_bad_frame(),
.rx_fifo_good_frame(),
.speed(),
.ifg_delay(12)
);
eth_axis_rx
eth_axis_rx_inst (
.clk(clk),
.rst(rst),
// AXI input
.s_axis_tdata(rx_axis_tdata),
.s_axis_tvalid(rx_axis_tvalid),
.s_axis_tready(rx_axis_tready),
.s_axis_tlast(rx_axis_tlast),
.s_axis_tuser(rx_axis_tuser),
// Ethernet frame output
.m_eth_hdr_valid(rx_eth_hdr_valid),
.m_eth_hdr_ready(rx_eth_hdr_ready),
.m_eth_dest_mac(rx_eth_dest_mac),
.m_eth_src_mac(rx_eth_src_mac),
.m_eth_type(rx_eth_type),
.m_eth_payload_axis_tdata(rx_eth_payload_axis_tdata),
.m_eth_payload_axis_tvalid(rx_eth_payload_axis_tvalid),
.m_eth_payload_axis_tready(rx_eth_payload_axis_tready),
.m_eth_payload_axis_tlast(rx_eth_payload_axis_tlast),
.m_eth_payload_axis_tuser(rx_eth_payload_axis_tuser),
// Status signals
.busy(),
.error_header_early_termination()
);
eth_axis_tx
eth_axis_tx_inst (
.clk(clk),
.rst(rst),
// Ethernet frame input
.s_eth_hdr_valid(tx_eth_hdr_valid),
.s_eth_hdr_ready(tx_eth_hdr_ready),
.s_eth_dest_mac(tx_eth_dest_mac),
.s_eth_src_mac(tx_eth_src_mac),
.s_eth_type(tx_eth_type),
.s_eth_payload_axis_tdata(tx_eth_payload_axis_tdata),
.s_eth_payload_axis_tvalid(tx_eth_payload_axis_tvalid),
.s_eth_payload_axis_tready(tx_eth_payload_axis_tready),
.s_eth_payload_axis_tlast(tx_eth_payload_axis_tlast),
.s_eth_payload_axis_tuser(tx_eth_payload_axis_tuser),
// AXI output
.m_axis_tdata(tx_axis_tdata),
.m_axis_tvalid(tx_axis_tvalid),
.m_axis_tready(tx_axis_tready),
.m_axis_tlast(tx_axis_tlast),
.m_axis_tuser(tx_axis_tuser),
// Status signals
.busy()
);
udp_complete
udp_complete_inst (
.clk(clk),
.rst(rst),
// Ethernet frame input
.s_eth_hdr_valid(rx_eth_hdr_valid),
.s_eth_hdr_ready(rx_eth_hdr_ready),
.s_eth_dest_mac(rx_eth_dest_mac),
.s_eth_src_mac(rx_eth_src_mac),
.s_eth_type(rx_eth_type),
.s_eth_payload_axis_tdata(rx_eth_payload_axis_tdata),
.s_eth_payload_axis_tvalid(rx_eth_payload_axis_tvalid),
.s_eth_payload_axis_tready(rx_eth_payload_axis_tready),
.s_eth_payload_axis_tlast(rx_eth_payload_axis_tlast),
.s_eth_payload_axis_tuser(rx_eth_payload_axis_tuser),
// Ethernet frame output
.m_eth_hdr_valid(tx_eth_hdr_valid),
.m_eth_hdr_ready(tx_eth_hdr_ready),
.m_eth_dest_mac(tx_eth_dest_mac),
.m_eth_src_mac(tx_eth_src_mac),
.m_eth_type(tx_eth_type),
.m_eth_payload_axis_tdata(tx_eth_payload_axis_tdata),
.m_eth_payload_axis_tvalid(tx_eth_payload_axis_tvalid),
.m_eth_payload_axis_tready(tx_eth_payload_axis_tready),
.m_eth_payload_axis_tlast(tx_eth_payload_axis_tlast),
.m_eth_payload_axis_tuser(tx_eth_payload_axis_tuser),
// IP frame input
.s_ip_hdr_valid(tx_ip_hdr_valid),
.s_ip_hdr_ready(tx_ip_hdr_ready),
.s_ip_dscp(tx_ip_dscp),
.s_ip_ecn(tx_ip_ecn),
.s_ip_length(tx_ip_length),
.s_ip_ttl(tx_ip_ttl),
.s_ip_protocol(tx_ip_protocol),
.s_ip_source_ip(tx_ip_source_ip),
.s_ip_dest_ip(tx_ip_dest_ip),
.s_ip_payload_axis_tdata(tx_ip_payload_axis_tdata),
.s_ip_payload_axis_tvalid(tx_ip_payload_axis_tvalid),
.s_ip_payload_axis_tready(tx_ip_payload_axis_tready),
.s_ip_payload_axis_tlast(tx_ip_payload_axis_tlast),
.s_ip_payload_axis_tuser(tx_ip_payload_axis_tuser),
// IP frame output
.m_ip_hdr_valid(rx_ip_hdr_valid),
.m_ip_hdr_ready(rx_ip_hdr_ready),
.m_ip_eth_dest_mac(rx_ip_eth_dest_mac),
.m_ip_eth_src_mac(rx_ip_eth_src_mac),
.m_ip_eth_type(rx_ip_eth_type),
.m_ip_version(rx_ip_version),
.m_ip_ihl(rx_ip_ihl),
.m_ip_dscp(rx_ip_dscp),
.m_ip_ecn(rx_ip_ecn),
.m_ip_length(rx_ip_length),
.m_ip_identification(rx_ip_identification),
.m_ip_flags(rx_ip_flags),
.m_ip_fragment_offset(rx_ip_fragment_offset),
.m_ip_ttl(rx_ip_ttl),
.m_ip_protocol(rx_ip_protocol),
.m_ip_header_checksum(rx_ip_header_checksum),
.m_ip_source_ip(rx_ip_source_ip),
.m_ip_dest_ip(rx_ip_dest_ip),
.m_ip_payload_axis_tdata(rx_ip_payload_axis_tdata),
.m_ip_payload_axis_tvalid(rx_ip_payload_axis_tvalid),
.m_ip_payload_axis_tready(rx_ip_payload_axis_tready),
.m_ip_payload_axis_tlast(rx_ip_payload_axis_tlast),
.m_ip_payload_axis_tuser(rx_ip_payload_axis_tuser),
// UDP frame input
.s_udp_hdr_valid(tx_udp_hdr_valid),
.s_udp_hdr_ready(tx_udp_hdr_ready),
.s_udp_ip_dscp(tx_udp_ip_dscp),
.s_udp_ip_ecn(tx_udp_ip_ecn),
.s_udp_ip_ttl(tx_udp_ip_ttl),
.s_udp_ip_source_ip(tx_udp_ip_source_ip),
.s_udp_ip_dest_ip(tx_udp_ip_dest_ip),
.s_udp_source_port(tx_udp_source_port),
.s_udp_dest_port(tx_udp_dest_port),
.s_udp_length(tx_udp_length),
.s_udp_checksum(tx_udp_checksum),
.s_udp_payload_axis_tdata(tx_udp_payload_axis_tdata),
.s_udp_payload_axis_tvalid(tx_udp_payload_axis_tvalid),
.s_udp_payload_axis_tready(tx_udp_payload_axis_tready),
.s_udp_payload_axis_tlast(tx_udp_payload_axis_tlast),
.s_udp_payload_axis_tuser(tx_udp_payload_axis_tuser),
// UDP frame output
.m_udp_hdr_valid(rx_udp_hdr_valid),
.m_udp_hdr_ready(rx_udp_hdr_ready),
.m_udp_eth_dest_mac(rx_udp_eth_dest_mac),
.m_udp_eth_src_mac(rx_udp_eth_src_mac),
.m_udp_eth_type(rx_udp_eth_type),
.m_udp_ip_version(rx_udp_ip_version),
.m_udp_ip_ihl(rx_udp_ip_ihl),
.m_udp_ip_dscp(rx_udp_ip_dscp),
.m_udp_ip_ecn(rx_udp_ip_ecn),
.m_udp_ip_length(rx_udp_ip_length),
.m_udp_ip_identification(rx_udp_ip_identification),
.m_udp_ip_flags(rx_udp_ip_flags),
.m_udp_ip_fragment_offset(rx_udp_ip_fragment_offset),
.m_udp_ip_ttl(rx_udp_ip_ttl),
.m_udp_ip_protocol(rx_udp_ip_protocol),
.m_udp_ip_header_checksum(rx_udp_ip_header_checksum),
.m_udp_ip_source_ip(rx_udp_ip_source_ip),
.m_udp_ip_dest_ip(rx_udp_ip_dest_ip),
.m_udp_source_port(rx_udp_source_port),
.m_udp_dest_port(rx_udp_dest_port),
.m_udp_length(rx_udp_length),
.m_udp_checksum(rx_udp_checksum),
.m_udp_payload_axis_tdata(rx_udp_payload_axis_tdata),
.m_udp_payload_axis_tvalid(rx_udp_payload_axis_tvalid),
.m_udp_payload_axis_tready(rx_udp_payload_axis_tready),
.m_udp_payload_axis_tlast(rx_udp_payload_axis_tlast),
.m_udp_payload_axis_tuser(rx_udp_payload_axis_tuser),
// Status signals
.ip_rx_busy(),
.ip_tx_busy(),
.udp_rx_busy(),
.udp_tx_busy(),
.ip_rx_error_header_early_termination(),
.ip_rx_error_payload_early_termination(),
.ip_rx_error_invalid_header(),
.ip_rx_error_invalid_checksum(),
.ip_tx_error_payload_early_termination(),
.ip_tx_error_arp_failed(),
.udp_rx_error_header_early_termination(),
.udp_rx_error_payload_early_termination(),
.udp_tx_error_payload_early_termination(),
// Configuration
.local_mac(local_mac),
.local_ip(local_ip),
.gateway_ip(gateway_ip),
.subnet_mask(subnet_mask),
.clear_arp_cache(0)
);
axis_fifo #(
.ADDR_WIDTH(12),
.DATA_WIDTH(8),
.KEEP_ENABLE(0),
.ID_ENABLE(0),
.DEST_ENABLE(0),
.USER_ENABLE(1),
.USER_WIDTH(1),
.FRAME_FIFO(0)
)
udp_payload_fifo (
.clk(clk),
.rst(rst),
// AXI input
.s_axis_tdata(rx_fifo_udp_payload_axis_tdata),
.s_axis_tkeep(0),
.s_axis_tvalid(rx_fifo_udp_payload_axis_tvalid),
.s_axis_tready(rx_fifo_udp_payload_axis_tready),
.s_axis_tlast(rx_fifo_udp_payload_axis_tlast),
.s_axis_tid(0),
.s_axis_tdest(0),
.s_axis_tuser(rx_fifo_udp_payload_axis_tuser),
// AXI output
.m_axis_tdata(tx_fifo_udp_payload_axis_tdata),
.m_axis_tkeep(),
.m_axis_tvalid(tx_fifo_udp_payload_axis_tvalid),
.m_axis_tready(tx_fifo_udp_payload_axis_tready),
.m_axis_tlast(tx_fifo_udp_payload_axis_tlast),
.m_axis_tid(),
.m_axis_tdest(),
.m_axis_tuser(tx_fifo_udp_payload_axis_tuser),
// Status
.status_overflow(),
.status_bad_frame(),
.status_good_frame()
);
endmodule

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example/KC705/fpga_gmii/rtl/sync_reset.v Normal file
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/*
Copyright (c) 2014-2018 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 1 ns / 1 ps
/*
* Synchronizes an active-high asynchronous reset signal to a given clock by
* using a pipeline of N registers.
*/
module sync_reset #(
parameter N=2 // depth of synchronizer
)(
input wire clk,
input wire rst,
output wire sync_reset_out
);
reg [N-1:0] sync_reg = {N{1'b1}};
assign sync_reset_out = sync_reg[N-1];
always @(posedge clk or posedge rst) begin
if (rst)
sync_reg <= {N{1'b1}};
else
sync_reg <= {sync_reg[N-2:0], 1'b0};
end
endmodule

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example/KC705/fpga_gmii/rtl/sync_signal.v Normal file
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/*
Copyright (c) 2014-2018 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 1 ns / 1 ps
/*
* Synchronizes an asyncronous signal to a given clock by using a pipeline of
* two registers.
*/
module sync_signal #(
parameter WIDTH=1, // width of the input and output signals
parameter N=2 // depth of synchronizer
)(
input wire clk,
input wire [WIDTH-1:0] in,
output wire [WIDTH-1:0] out
);
reg [WIDTH-1:0] sync_reg[N-1:0];
/*
* The synchronized output is the last register in the pipeline.
*/
assign out = sync_reg[N-1];
integer k;
always @(posedge clk) begin
sync_reg[0] <= in;
for (k = 1; k < N; k = k + 1) begin
sync_reg[k] <= sync_reg[k-1];
end
end
endmodule

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example/KC705/fpga_gmii/tb/arp_ep.py Symbolic link
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../lib/eth/tb/arp_ep.py

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example/KC705/fpga_gmii/tb/axis_ep.py Symbolic link
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../lib/eth/tb/axis_ep.py

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example/KC705/fpga_gmii/tb/eth_ep.py Symbolic link
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../lib/eth/tb/eth_ep.py

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example/KC705/fpga_gmii/tb/gmii_ep.py Symbolic link
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../lib/eth/tb/gmii_ep.py

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example/KC705/fpga_gmii/tb/ip_ep.py Symbolic link
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../lib/eth/tb/ip_ep.py

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example/KC705/fpga_gmii/tb/test_fpga_core.py Executable file
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#!/usr/bin/env python
"""
Copyright (c) 2015-2018 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.
"""
from myhdl import *
import os
import eth_ep
import arp_ep
import udp_ep
import gmii_ep
module = 'fpga_core'
testbench = 'test_%s' % module
srcs = []
srcs.append("../rtl/%s.v" % module)
srcs.append("../lib/eth/rtl/oddr.v")
srcs.append("../lib/eth/rtl/ssio_sdr_in.v")
srcs.append("../lib/eth/rtl/ssio_sdr_out.v")
srcs.append("../lib/eth/rtl/gmii_phy_if.v")
srcs.append("../lib/eth/rtl/eth_mac_1g_gmii_fifo.v")
srcs.append("../lib/eth/rtl/eth_mac_1g_gmii.v")
srcs.append("../lib/eth/rtl/eth_mac_1g.v")
srcs.append("../lib/eth/rtl/axis_gmii_rx.v")
srcs.append("../lib/eth/rtl/axis_gmii_tx.v")
srcs.append("../lib/eth/rtl/lfsr.v")
srcs.append("../lib/eth/rtl/eth_axis_rx.v")
srcs.append("../lib/eth/rtl/eth_axis_tx.v")
srcs.append("../lib/eth/rtl/udp_complete.v")
srcs.append("../lib/eth/rtl/udp_checksum_gen.v")
srcs.append("../lib/eth/rtl/udp.v")
srcs.append("../lib/eth/rtl/udp_ip_rx.v")
srcs.append("../lib/eth/rtl/udp_ip_tx.v")
srcs.append("../lib/eth/rtl/ip_complete.v")
srcs.append("../lib/eth/rtl/ip.v")
srcs.append("../lib/eth/rtl/ip_eth_rx.v")
srcs.append("../lib/eth/rtl/ip_eth_tx.v")
srcs.append("../lib/eth/rtl/ip_arb_mux.v")
srcs.append("../lib/eth/rtl/arp.v")
srcs.append("../lib/eth/rtl/arp_cache.v")
srcs.append("../lib/eth/rtl/arp_eth_rx.v")
srcs.append("../lib/eth/rtl/arp_eth_tx.v")
srcs.append("../lib/eth/rtl/eth_arb_mux.v")
srcs.append("../lib/eth/lib/axis/rtl/arbiter.v")
srcs.append("../lib/eth/lib/axis/rtl/priority_encoder.v")
srcs.append("../lib/eth/lib/axis/rtl/axis_fifo.v")
srcs.append("../lib/eth/lib/axis/rtl/axis_async_fifo.v")
srcs.append("%s.v" % testbench)
src = ' '.join(srcs)
build_cmd = "iverilog -o %s.vvp %s" % (testbench, src)
def bench():
# Parameters
TARGET = "SIM"
# Inputs
clk = Signal(bool(0))
rst = Signal(bool(0))
current_test = Signal(intbv(0)[8:])
btnu = Signal(bool(0))
btnl = Signal(bool(0))
btnd = Signal(bool(0))
btnr = Signal(bool(0))
btnc = Signal(bool(0))
sw = Signal(intbv(0)[4:])
phy_rx_clk = Signal(bool(0))
phy_rxd = Signal(intbv(0)[8:])
phy_rx_dv = Signal(bool(0))
phy_rx_er = Signal(bool(0))
phy_tx_clk = Signal(bool(0))
phy_int_n = Signal(bool(1))
uart_rxd = Signal(bool(0))
uart_cts = Signal(bool(0))
# Outputs
led = Signal(intbv(0)[8:])
phy_gtx_clk = Signal(bool(0))
phy_txd = Signal(intbv(0)[8:])
phy_tx_en = Signal(bool(0))
phy_tx_er = Signal(bool(0))
phy_reset_n = Signal(bool(0))
uart_txd = Signal(bool(0))
uart_rts = Signal(bool(0))
# sources and sinks
mii_select = Signal(bool(0))
gmii_source = gmii_ep.GMIISource()
gmii_source_logic = gmii_source.create_logic(
phy_rx_clk,
rst,
txd=phy_rxd,
tx_en=phy_rx_dv,
tx_er=phy_rx_er,
mii_select=mii_select,
name='gmii_source'
)
gmii_sink = gmii_ep.GMIISink()
gmii_sink_logic = gmii_sink.create_logic(
phy_tx_clk,
rst,
rxd=phy_txd,
rx_dv=phy_tx_en,
rx_er=phy_tx_er,
mii_select=mii_select,
name='gmii_sink'
)
# DUT
if os.system(build_cmd):
raise Exception("Error running build command")
dut = Cosimulation(
"vvp -m myhdl %s.vvp -lxt2" % testbench,
clk=clk,
rst=rst,
current_test=current_test,
btnu=btnu,
btnl=btnl,
btnd=btnd,
btnr=btnr,
btnc=btnc,
sw=sw,
led=led,
phy_rx_clk=phy_rx_clk,
phy_rxd=phy_rxd,
phy_rx_dv=phy_rx_dv,
phy_rx_er=phy_rx_er,
phy_gtx_clk=phy_gtx_clk,
phy_tx_clk=phy_tx_clk,
phy_txd=phy_txd,
phy_tx_en=phy_tx_en,
phy_tx_er=phy_tx_er,
phy_reset_n=phy_reset_n,
phy_int_n=phy_int_n,
uart_rxd=uart_rxd,
uart_txd=uart_txd,
uart_rts=uart_rts,
uart_cts=uart_cts
)
@always(delay(4))
def clkgen():
clk.next = not clk
rx_clk_hp = Signal(int(4))
@instance
def rx_clk_gen():
while True:
yield delay(int(rx_clk_hp))
phy_rx_clk.next = not phy_rx_clk
phy_tx_clk.next = not phy_tx_clk
@instance
def check():
yield delay(100)
yield clk.posedge
rst.next = 1
yield clk.posedge
rst.next = 0
yield clk.posedge
yield delay(100)
yield clk.posedge
# testbench stimulus
yield clk.posedge
print("test 1: test UDP RX packet")
current_test.next = 1
test_frame = udp_ep.UDPFrame()
test_frame.eth_dest_mac = 0x020000000000
test_frame.eth_src_mac = 0xDAD1D2D3D4D5
test_frame.eth_type = 0x0800
test_frame.ip_version = 4
test_frame.ip_ihl = 5
test_frame.ip_dscp = 0
test_frame.ip_ecn = 0
test_frame.ip_length = None
test_frame.ip_identification = 0
test_frame.ip_flags = 2
test_frame.ip_fragment_offset = 0
test_frame.ip_ttl = 64
test_frame.ip_protocol = 0x11
test_frame.ip_header_checksum = None
test_frame.ip_source_ip = 0xc0a80181
test_frame.ip_dest_ip = 0xc0a80180
test_frame.udp_source_port = 5678
test_frame.udp_dest_port = 1234
test_frame.payload = bytearray(range(32))
test_frame.build()
gmii_source.send(b'\x55\x55\x55\x55\x55\x55\x55\xD5'+test_frame.build_eth().build_axis_fcs().data)
# wait for ARP request packet
while gmii_sink.empty():
yield clk.posedge
rx_frame = gmii_sink.recv()
check_eth_frame = eth_ep.EthFrame()
check_eth_frame.parse_axis_fcs(rx_frame.data[8:])
check_frame = arp_ep.ARPFrame()
check_frame.parse_eth(check_eth_frame)
print(check_frame)
assert check_frame.eth_dest_mac == 0xFFFFFFFFFFFF
assert check_frame.eth_src_mac == 0x020000000000
assert check_frame.eth_type == 0x0806
assert check_frame.arp_htype == 0x0001
assert check_frame.arp_ptype == 0x0800
assert check_frame.arp_hlen == 6
assert check_frame.arp_plen == 4
assert check_frame.arp_oper == 1
assert check_frame.arp_sha == 0x020000000000
assert check_frame.arp_spa == 0xc0a80180
assert check_frame.arp_tha == 0x000000000000
assert check_frame.arp_tpa == 0xc0a80181
# generate response
arp_frame = arp_ep.ARPFrame()
arp_frame.eth_dest_mac = 0x020000000000
arp_frame.eth_src_mac = 0xDAD1D2D3D4D5
arp_frame.eth_type = 0x0806
arp_frame.arp_htype = 0x0001
arp_frame.arp_ptype = 0x0800
arp_frame.arp_hlen = 6
arp_frame.arp_plen = 4
arp_frame.arp_oper = 2
arp_frame.arp_sha = 0xDAD1D2D3D4D5
arp_frame.arp_spa = 0xc0a80181
arp_frame.arp_tha = 0x020000000000
arp_frame.arp_tpa = 0xc0a80180
gmii_source.send(b'\x55\x55\x55\x55\x55\x55\x55\xD5'+arp_frame.build_eth().build_axis_fcs().data)
while gmii_sink.empty():
yield clk.posedge
rx_frame = gmii_sink.recv()
check_eth_frame = eth_ep.EthFrame()
check_eth_frame.parse_axis_fcs(rx_frame.data[8:])
check_frame = udp_ep.UDPFrame()
check_frame.parse_eth(check_eth_frame)
print(check_frame)
assert check_frame.eth_dest_mac == 0xDAD1D2D3D4D5
assert check_frame.eth_src_mac == 0x020000000000
assert check_frame.eth_type == 0x0800
assert check_frame.ip_version == 4
assert check_frame.ip_ihl == 5
assert check_frame.ip_dscp == 0
assert check_frame.ip_ecn == 0
assert check_frame.ip_identification == 0
assert check_frame.ip_flags == 2
assert check_frame.ip_fragment_offset == 0
assert check_frame.ip_ttl == 64
assert check_frame.ip_protocol == 0x11
assert check_frame.ip_source_ip == 0xc0a80180
assert check_frame.ip_dest_ip == 0xc0a80181
assert check_frame.udp_source_port == 1234
assert check_frame.udp_dest_port == 5678
assert check_frame.payload.data == bytearray(range(32))
assert gmii_source.empty()
assert gmii_sink.empty()
yield delay(100)
raise StopSimulation
return instances()
def test_bench():
sim = Simulation(bench())
sim.run()
if __name__ == '__main__':
print("Running test...")
test_bench()

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example/KC705/fpga_gmii/tb/test_fpga_core.v Normal file
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/*
Copyright (c) 2015-2018 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
/*
* Testbench for fpga_core
*/
module test_fpga_core;
// Parameters
parameter TARGET = "SIM";
// Inputs
reg clk = 0;
reg rst = 0;
reg [7:0] current_test = 0;
reg btnu = 0;
reg btnl = 0;
reg btnd = 0;
reg btnr = 0;
reg btnc = 0;
reg [3:0] sw = 0;
reg phy_rx_clk = 0;
reg [7:0] phy_rxd = 0;
reg phy_rx_dv = 0;
reg phy_rx_er = 0;
reg phy_tx_clk = 0;
reg phy_int_n = 1;
reg uart_rxd = 0;
reg uart_cts = 0;
// Outputs
wire [7:0] led;
wire phy_gtx_clk;
wire [7:0] phy_txd;
wire phy_tx_en;
wire phy_tx_er;
wire phy_reset_n;
wire uart_txd;
wire uart_rts;
initial begin
// myhdl integration
$from_myhdl(
clk,
rst,
current_test,
btnu,
btnl,
btnd,
btnr,
btnc,
sw,
phy_rx_clk,
phy_rxd,
phy_rx_dv,
phy_rx_er,
phy_tx_clk,
phy_int_n,
uart_rxd,
uart_cts
);
$to_myhdl(
led,
phy_gtx_clk,
phy_txd,
phy_tx_en,
phy_tx_er,
phy_reset_n,
uart_txd,
uart_rts
);
// dump file
$dumpfile("test_fpga_core.lxt");
$dumpvars(0, test_fpga_core);
end
fpga_core #(
.TARGET(TARGET)
)
UUT (
.clk(clk),
.rst(rst),
.btnu(btnu),
.btnl(btnl),
.btnd(btnd),
.btnr(btnr),
.btnc(btnc),
.sw(sw),
.led(led),
.phy_rx_clk(phy_rx_clk),
.phy_rxd(phy_rxd),
.phy_rx_dv(phy_rx_dv),
.phy_rx_er(phy_rx_er),
.phy_gtx_clk(phy_gtx_clk),
.phy_tx_clk(phy_tx_clk),
.phy_txd(phy_txd),
.phy_tx_en(phy_tx_en),
.phy_tx_er(phy_tx_er),
.phy_reset_n(phy_reset_n),
.phy_int_n(phy_int_n),
.uart_rxd(uart_rxd),
.uart_txd(uart_txd),
.uart_rts(uart_rts),
.uart_cts(uart_cts)
);
endmodule

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example/KC705/fpga_gmii/tb/udp_ep.py Symbolic link
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../lib/eth/tb/udp_ep.py