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base: baulin.fa:7d1bfe25b417c110cf110519e92084becd31519a
Branches Tags
baulin.fa:master baulin.fa:dev/design baulin.fa:dev/accum baulin.fa:dev/debug baulin.fa:dev/controller baulin.fa:dev/ethernet baulin.fa:dev/generator baulin.fa:dev/sampler
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compare: baulin.fa:dev/design
Branches Tags
baulin.fa:dev/design baulin.fa:master baulin.fa:dev/accum baulin.fa:dev/debug baulin.fa:dev/controller baulin.fa:dev/ethernet baulin.fa:dev/generator baulin.fa:dev/sampler

55 Commits
7d1bfe25b4 ... dev/design

Author SHA1 Message Date
otroubi
138c5d7dce dev: full project reflectometer 2026-04-28 17:18:41 +03:00
Phil
16cef61a88 rtl: add sample reflectometer project mock 2026-04-28 17:05:14 +03:00
Phil
d68c22211d chore: update constraints to debug ADC + simple DAC 2026-04-28 16:58:36 +03:00
Филипп Баулин
b7409534ed Merge pull request 'dev/accum' (#7) from dev/accum into master 
Reviewed-on: #7
 2026-04-28 16:20:58 +03:00
Phil
3ea03fd40c docs: add README for accum 2026-04-28 15:36:59 +03:00
Phil
ea381320f3 Merge branch 'dev/accum' of https://git.radiophotonics.ru/baulin.fa/reflectometer_fpga_project into dev/accum 2026-04-28 15:36:34 +03:00
otroubi
bd8dc9d0d3 chore: fix readme 2026-04-28 15:25:51 +03:00
otroubi
2e22eb68df docs: add sampler_readme 2026-04-28 15:21:58 +03:00
Phil
d5c3ff873f infra: add sample makefile 2026-04-28 14:41:56 +03:00
otroubi
5f1f4e5a16 rtl: new tb 2026-04-28 13:57:28 +03:00
Phil
4efc2f02a9 infra: increase sim time for larger tests 2026-04-28 13:29:05 +03:00
Phil
312bc0c798 fix: automate tb 2026-04-28 13:28:49 +03:00
Phil
c4a7c21bea fix: clock name un xdc 2026-04-28 13:13:40 +03:00
Phil
e083cd5c2e rtl: update accum to support real cases 2026-04-28 13:13:27 +03:00
otroubi
264c9ecb8e rtl: update sampler 2026-04-28 13:10:22 +03:00
Phil
fc0e710b3e tests: add waveconfigs 2026-04-28 12:11:41 +03:00
Phil
275055291e fix: update names in out_axis_fifo_tb 2026-04-28 11:57:53 +03:00
Phil
002f0cace5 test: add full testbenches for accum 2026-04-28 11:57:13 +03:00
Phil
91eaf6c4f8 fix: out_axis_fifo states 2026-04-28 11:56:19 +03:00
Phil
9b189f931f rtl: update accum design 2026-04-28 11:55:46 +03:00
Phil
a8a3aff498 rtl: first impl of adder+accum 2026-04-22 16:38:22 +03:00
Phil
b54e69dec0 chore: add clocks for accum_fifo impl test 2026-04-21 19:48:20 +03:00
Phil
7be26d9d1a chore: update tb files 2026-04-21 19:47:56 +03:00
Phil
3dcaaf8ea5 fix: better sync for accum fifo 2026-04-21 19:47:46 +03:00
Phil
dfccc01225 tests: auto tb for out_axis_fifo 2026-04-21 19:47:27 +03:00
Phil
4eb937e13f infra: make default sim longer 2026-04-21 19:46:51 +03:00
Phil
21785aaac7 rtl: send part of out_axis_fifo 2026-04-21 17:26:02 +03:00
Phil
8e46f965df fix: incorrect fifo threshold value 2026-04-17 21:58:20 +03:00
Phil
7f9ad95e68 tests: add simple tb for accum output fifo 2026-04-17 21:51:00 +03:00
Phil
4786d2d7f6 rtl: wip accum output module, currently only with write part 2026-04-17 21:50:30 +03:00
Филипп Баулин
58500b7549 Merge pull request 'dev/debug' (#6) from dev/debug into master 
Reviewed-on: #6
 2026-04-17 15:30:07 +03:00
Phil
8b1e209da6 rtl: add project with eth and generator 2026-04-17 14:53:14 +03:00
Phil
924f94986c chore: exclude bitstreams from git 2026-04-17 14:50:23 +03:00
Phil
83c714cd6f sw: update console, now can send actual data 2026-04-17 14:44:27 +03:00
Phil
f54883a9e7 fix: constraint re-pin DAC to J11 header 2026-04-17 14:43:31 +03:00
Phil
b9c75b823f fix: generator wrt signal incorrect clocking 2026-04-17 14:42:20 +03:00
Филипп Баулин
f863d09fb8 Merge pull request 'dev/controller' (#5) from dev/controller into master 
Reviewed-on: #5
 2026-04-15 18:58:23 +03:00
Phil
597be48407 docs: fix typos 2026-04-15 18:56:46 +03:00
Phil
f98051bc53 docs: add controller READMEs 2026-04-15 18:54:07 +03:00
Phil
eea031c6c1 fix: broken (stuck) sim 2026-04-15 18:53:49 +03:00
Phil
500b10b327 sw: add console script prototype 2026-04-15 18:28:03 +03:00
Phil
851851828e fix: add missing constrain to Makefile 2026-04-15 18:23:52 +03:00
Phil
35e9feb87b tests: add sample project for eth+ctrl 2026-04-15 17:57:16 +03:00
Phil
c41b08f539 fix: tricky packet check in ctrl 2026-04-15 17:56:22 +03:00
Phil
ea7af4ed62 infra: init designs folder 2026-04-15 13:40:19 +03:00
Phil
6bb4f1efd8 infra: sim_top auto pick if exists in sim fileset 2026-04-15 13:31:47 +03:00
Phil
dcf93fb307 infra: add build Makefile for controller test project 2026-04-15 13:31:28 +03:00
Phil
23f82b9445 tests: add controller tb 2026-04-15 13:30:56 +03:00
Phil
bdb75fa298 infra: exclude temp scripts from git 2026-04-15 13:19:08 +03:00
Phil
003750d972 rtl: add controller first version 2026-04-15 12:47:10 +03:00
Филипп Баулин
966d0379b7 Merge pull request 'dev/ethernet' (#4) from dev/ethernet into master 
Reviewed-on: #4
 2026-04-14 15:42:08 +03:00
ilianova.ds
88db70ede8 Merge pull request 'rtl: generator added' (#1) from dev/generator into master 
Reviewed-on: #1
 2026-04-08 15:25:25 +03:00
Филипп Баулин
ad6d6a4e2b Merge pull request 'rtl: sampler ready' (#2) from dev/sampler into master 
Reviewed-on: #2
 2026-04-08 15:25:03 +03:00
otroubi
7a1c838de3 rtl: generator added 2026-04-08 15:13:57 +03:00
otroubi
221cb055f1 rtl: sampler ready 2026-04-01 11:46:59 +03:00
45 changed files with 7288 additions and 30 deletions
Expand all files Collapse all files

14
.gitignore vendored
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@ -12,4 +12,18 @@
*.log
*.rpt
*.dcp
*.xpr
.Xil
xvlog.pb
*vivado_pid*
# some generated files (they annoy me)
update_config.tcl
create_project.tcl
gen_ip.tcl
defines.v
run_sim.tcl
*.bit
*.xsa
*.ltx
*.bin

66
constraints/ax7a035b.xdc
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@ -58,6 +58,43 @@ set_property SLEW FAST [get_ports rgmii_txctl]
set_property SLEW FAST [get_ports {rgmii_txd[*]}]
create_clock -period 8.000 [get_ports rgmii_rxc]
# === DAC (J11 header) ===
#set_property IOSTANDARD LVCMOS33 [get_ports p2_clk]
#set_property IOSTANDARD LVCMOS33 [get_ports p2_wrt]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[13]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[12]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[11]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[10]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[9]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[8]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[7]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[6]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[5]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[4]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[3]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[2]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[1]}]
#set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[0]}]
#set_property SLEW FAST [get_ports p2_clk]
#set_property PACKAGE_PIN C18 [get_ports p2_clk]
#set_property PACKAGE_PIN C19 [get_ports p2_wrt]
#set_property PACKAGE_PIN B17 [get_ports {p2_data[13]}]
#set_property PACKAGE_PIN B18 [get_ports {p2_data[12]}]
#set_property PACKAGE_PIN D17 [get_ports {p2_data[11]}]
#set_property PACKAGE_PIN C17 [get_ports {p2_data[10]}]
#set_property PACKAGE_PIN A15 [get_ports {p2_data[9]}]
#set_property PACKAGE_PIN A16 [get_ports {p2_data[8]}]
#set_property PACKAGE_PIN B15 [get_ports {p2_data[7]}]
#set_property PACKAGE_PIN B16 [get_ports {p2_data[6]}]
#set_property PACKAGE_PIN A13 [get_ports {p2_data[5]}]
#set_property PACKAGE_PIN A14 [get_ports {p2_data[4]}]
#set_property PACKAGE_PIN E16 [get_ports {p2_data[3]}]
#set_property PACKAGE_PIN D16 [get_ports {p2_data[2]}]
#set_property PACKAGE_PIN C14 [get_ports {p2_data[1]}]
#set_property PACKAGE_PIN C15 [get_ports {p2_data[0]}]
# === ADC an9238 (J11 header) ===
set_property PACKAGE_PIN G21 [get_ports ch2_clk]
set_property PACKAGE_PIN G22 [get_ports ch2_data[0]]
@ -95,30 +132,7 @@ set_property IOSTANDARD LVCMOS33 [get_ports {ch1_data[*]}]
set_property IOSTANDARD LVCMOS33 [get_ports ch1_clk]
set_property IOSTANDARD LVCMOS33 [get_ports ch1_otr]
set_property SLEW FAST [get_ports {ch2_clk ch1_clk}]
# === DAC an9767 (J13 header) ===
set_property PACKAGE_PIN AA9 [get_ports p2_clk]
set_property PACKAGE_PIN AB10 [get_ports p2_wrt]
set_property PACKAGE_PIN U16 [get_ports p2_data[13]]
set_property PACKAGE_PIN T16 [get_ports p2_data[12]]
set_property PACKAGE_PIN AA13 [get_ports p2_data[11]]
set_property PACKAGE_PIN AB13 [get_ports p2_data[10]]
set_property PACKAGE_PIN AB11 [get_ports p2_data[9]]
set_property PACKAGE_PIN AB12 [get_ports p2_data[8]]
set_property PACKAGE_PIN Y13 [get_ports p2_data[7]]
set_property PACKAGE_PIN AA14 [get_ports p2_data[6]]
set_property PACKAGE_PIN W14 [get_ports p2_data[5]]
set_property PACKAGE_PIN Y14 [get_ports p2_data[4]]
set_property PACKAGE_PIN Y16 [get_ports p2_data[3]]
set_property PACKAGE_PIN AA16 [get_ports p2_data[2]]
set_property PACKAGE_PIN AB16 [get_ports p2_data[1]]
set_property PACKAGE_PIN AB17 [get_ports p2_data[0]]
set_property IOSTANDARD LVCMOS33 [get_ports p2_clk]
set_property IOSTANDARD LVCMOS33 [get_ports p2_wrt]
set_property IOSTANDARD LVCMOS33 [get_ports {p2_data[*]}]
set_property SLEW FAST [get_ports {p2_clk}]
# 1 bit DAC)))
set_property PACKAGE_PIN E17 [get_ports debug_dac]
set_property IOSTANDARD LVCMOS33 [get_ports debug_dac]

5
designs/README.md Normal file
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@ -0,0 +1,5 @@
# Директория с тестовыми проектами под ПЛИСу
- eth_ctrl_debug: проект с ethernet и контроллером. Позволяет через ILA проверить, что пакет правильно принимается и что значения правильно выставляются.
- eth_generator: проект на базе eth_ctrl_debug, в который включен генератор импульсов. В паре с ЦАП можно через консольку по Ethernet запускать генерацию разных импульсов.

52
designs/eth_ctrl_debug/Makefile Normal file
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@ -0,0 +1,52 @@
# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = eth_ctrl_debug_top
FPGA_ARCH = artix7
RTL_DIR = ../../rtl
include ../../scripts/vivado.mk
SYN_FILES += eth_ctrl_debug.sv
SYN_FILES += $(sort $(shell find ../../rtl -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../../rtl/ethernet-udp/src -type f -name '*.xci'))
XCI_FILES += $(sort $(shell find ip/ -type f -name '*.xci'))
XDC_FILES += ../../constraints/ax7a035b.xdc
XDC_FILES += debug.xdc
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

7
designs/eth_ctrl_debug/README.md Normal file
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@ -0,0 +1,7 @@
# Тестовый проект Eth + CTRL
Проект состоит из AXIS Ethernet и контроллера. Для тестирования сделано три разных частотных домена: ethernet 125MHz, DAC 130MHz, ADC 65MHz для тестирования сихронизации. Есть ILA на все выходы контроллера и на шину AXIS eth -> ctrl. Для отправки пакетов используйте скрипт ```console.py --debug```.
## Сборка
```make all``` - собрать все до битстрима
```make vivado``` - открыть проект в Vivado

147
designs/eth_ctrl_debug/debug.xdc Normal file
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@ -0,0 +1,147 @@
set_clock_groups -name ASYNC_UDP_CTRL -asynchronous -group [get_clocks rgmii_rxc] -group [get_clocks clk_out1_clk_wiz_ctrl_inst] -group [get_clocks clk_out2_clk_wiz_ctrl_inst]
create_debug_core u_ila_0 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_0]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_0]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_0]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_0]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_0]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_0]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_0]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_0]
set_property port_width 1 [get_debug_ports u_ila_0/clk]
connect_debug_port u_ila_0/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out2]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe0]
set_property port_width 32 [get_debug_ports u_ila_0/probe0]
connect_debug_port u_ila_0/probe0 [get_nets [list {adc_pulse_period_dbg[0]} {adc_pulse_period_dbg[1]} {adc_pulse_period_dbg[2]} {adc_pulse_period_dbg[3]} {adc_pulse_period_dbg[4]} {adc_pulse_period_dbg[5]} {adc_pulse_period_dbg[6]} {adc_pulse_period_dbg[7]} {adc_pulse_period_dbg[8]} {adc_pulse_period_dbg[9]} {adc_pulse_period_dbg[10]} {adc_pulse_period_dbg[11]} {adc_pulse_period_dbg[12]} {adc_pulse_period_dbg[13]} {adc_pulse_period_dbg[14]} {adc_pulse_period_dbg[15]} {adc_pulse_period_dbg[16]} {adc_pulse_period_dbg[17]} {adc_pulse_period_dbg[18]} {adc_pulse_period_dbg[19]} {adc_pulse_period_dbg[20]} {adc_pulse_period_dbg[21]} {adc_pulse_period_dbg[22]} {adc_pulse_period_dbg[23]} {adc_pulse_period_dbg[24]} {adc_pulse_period_dbg[25]} {adc_pulse_period_dbg[26]} {adc_pulse_period_dbg[27]} {adc_pulse_period_dbg[28]} {adc_pulse_period_dbg[29]} {adc_pulse_period_dbg[30]} {adc_pulse_period_dbg[31]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe1]
set_property port_width 8 [get_debug_ports u_ila_0/probe1]
connect_debug_port u_ila_0/probe1 [get_nets [list {finish_cnt[0]} {finish_cnt[1]} {finish_cnt[2]} {finish_cnt[3]} {finish_cnt[4]} {finish_cnt[5]} {finish_cnt[6]} {finish_cnt[7]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe2]
set_property port_width 16 [get_debug_ports u_ila_0/probe2]
connect_debug_port u_ila_0/probe2 [get_nets [list {adc_pulse_num_dbg[0]} {adc_pulse_num_dbg[1]} {adc_pulse_num_dbg[2]} {adc_pulse_num_dbg[3]} {adc_pulse_num_dbg[4]} {adc_pulse_num_dbg[5]} {adc_pulse_num_dbg[6]} {adc_pulse_num_dbg[7]} {adc_pulse_num_dbg[8]} {adc_pulse_num_dbg[9]} {adc_pulse_num_dbg[10]} {adc_pulse_num_dbg[11]} {adc_pulse_num_dbg[12]} {adc_pulse_num_dbg[13]} {adc_pulse_num_dbg[14]} {adc_pulse_num_dbg[15]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe3]
set_property port_width 1 [get_debug_ports u_ila_0/probe3]
connect_debug_port u_ila_0/probe3 [get_nets [list adc_rst_dbg]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe4]
set_property port_width 1 [get_debug_ports u_ila_0/probe4]
connect_debug_port u_ila_0/probe4 [get_nets [list adc_start_dbg]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe5]
set_property port_width 1 [get_debug_ports u_ila_0/probe5]
connect_debug_port u_ila_0/probe5 [get_nets [list finish_dbg]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe6]
set_property port_width 1 [get_debug_ports u_ila_0/probe6]
connect_debug_port u_ila_0/probe6 [get_nets [list finish_pending]]
create_debug_core u_ila_1 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_1]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_1]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_1]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_1]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_1]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_1]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_1]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_1]
set_property port_width 1 [get_debug_ports u_ila_1/clk]
connect_debug_port u_ila_1/clk [get_nets [list rgmii_rxc_IBUF_BUFG]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe0]
set_property port_width 2 [get_debug_ports u_ila_1/probe0]
connect_debug_port u_ila_1/probe0 [get_nets [list {axis_mac0/rx_state[0]} {axis_mac0/rx_state[1]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe1]
set_property port_width 16 [get_debug_ports u_ila_1/probe1]
connect_debug_port u_ila_1/probe1 [get_nets [list {axis_mac0/udp_rec_data_length[0]} {axis_mac0/udp_rec_data_length[1]} {axis_mac0/udp_rec_data_length[2]} {axis_mac0/udp_rec_data_length[3]} {axis_mac0/udp_rec_data_length[4]} {axis_mac0/udp_rec_data_length[5]} {axis_mac0/udp_rec_data_length[6]} {axis_mac0/udp_rec_data_length[7]} {axis_mac0/udp_rec_data_length[8]} {axis_mac0/udp_rec_data_length[9]} {axis_mac0/udp_rec_data_length[10]} {axis_mac0/udp_rec_data_length[11]} {axis_mac0/udp_rec_data_length[12]} {axis_mac0/udp_rec_data_length[13]} {axis_mac0/udp_rec_data_length[14]} {axis_mac0/udp_rec_data_length[15]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe2]
set_property port_width 96 [get_debug_ports u_ila_1/probe2]
connect_debug_port u_ila_1/probe2 [get_nets [list {udp_ctrl_inst/cfg_bus_eth[0]} {udp_ctrl_inst/cfg_bus_eth[1]} {udp_ctrl_inst/cfg_bus_eth[2]} {udp_ctrl_inst/cfg_bus_eth[3]} {udp_ctrl_inst/cfg_bus_eth[4]} {udp_ctrl_inst/cfg_bus_eth[5]} {udp_ctrl_inst/cfg_bus_eth[6]} {udp_ctrl_inst/cfg_bus_eth[7]} {udp_ctrl_inst/cfg_bus_eth[8]} {udp_ctrl_inst/cfg_bus_eth[9]} {udp_ctrl_inst/cfg_bus_eth[10]} {udp_ctrl_inst/cfg_bus_eth[11]} {udp_ctrl_inst/cfg_bus_eth[12]} {udp_ctrl_inst/cfg_bus_eth[13]} {udp_ctrl_inst/cfg_bus_eth[14]} {udp_ctrl_inst/cfg_bus_eth[15]} {udp_ctrl_inst/cfg_bus_eth[16]} {udp_ctrl_inst/cfg_bus_eth[17]} {udp_ctrl_inst/cfg_bus_eth[18]} {udp_ctrl_inst/cfg_bus_eth[19]} {udp_ctrl_inst/cfg_bus_eth[20]} {udp_ctrl_inst/cfg_bus_eth[21]} {udp_ctrl_inst/cfg_bus_eth[22]} {udp_ctrl_inst/cfg_bus_eth[23]} {udp_ctrl_inst/cfg_bus_eth[24]} {udp_ctrl_inst/cfg_bus_eth[25]} {udp_ctrl_inst/cfg_bus_eth[26]} {udp_ctrl_inst/cfg_bus_eth[27]} {udp_ctrl_inst/cfg_bus_eth[28]} {udp_ctrl_inst/cfg_bus_eth[29]} {udp_ctrl_inst/cfg_bus_eth[30]} {udp_ctrl_inst/cfg_bus_eth[31]} {udp_ctrl_inst/cfg_bus_eth[32]} {udp_ctrl_inst/cfg_bus_eth[33]} {udp_ctrl_inst/cfg_bus_eth[34]} {udp_ctrl_inst/cfg_bus_eth[35]} {udp_ctrl_inst/cfg_bus_eth[36]} {udp_ctrl_inst/cfg_bus_eth[37]} {udp_ctrl_inst/cfg_bus_eth[38]} {udp_ctrl_inst/cfg_bus_eth[39]} {udp_ctrl_inst/cfg_bus_eth[40]} {udp_ctrl_inst/cfg_bus_eth[41]} {udp_ctrl_inst/cfg_bus_eth[42]} {udp_ctrl_inst/cfg_bus_eth[43]} {udp_ctrl_inst/cfg_bus_eth[44]} {udp_ctrl_inst/cfg_bus_eth[45]} {udp_ctrl_inst/cfg_bus_eth[46]} {udp_ctrl_inst/cfg_bus_eth[47]} {udp_ctrl_inst/cfg_bus_eth[48]} {udp_ctrl_inst/cfg_bus_eth[49]} {udp_ctrl_inst/cfg_bus_eth[50]} {udp_ctrl_inst/cfg_bus_eth[51]} {udp_ctrl_inst/cfg_bus_eth[52]} {udp_ctrl_inst/cfg_bus_eth[53]} {udp_ctrl_inst/cfg_bus_eth[54]} {udp_ctrl_inst/cfg_bus_eth[55]} {udp_ctrl_inst/cfg_bus_eth[56]} {udp_ctrl_inst/cfg_bus_eth[57]} {udp_ctrl_inst/cfg_bus_eth[58]} {udp_ctrl_inst/cfg_bus_eth[59]} {udp_ctrl_inst/cfg_bus_eth[60]} {udp_ctrl_inst/cfg_bus_eth[61]} {udp_ctrl_inst/cfg_bus_eth[62]} {udp_ctrl_inst/cfg_bus_eth[63]} {udp_ctrl_inst/cfg_bus_eth[64]} {udp_ctrl_inst/cfg_bus_eth[65]} {udp_ctrl_inst/cfg_bus_eth[66]} {udp_ctrl_inst/cfg_bus_eth[67]} {udp_ctrl_inst/cfg_bus_eth[68]} {udp_ctrl_inst/cfg_bus_eth[69]} {udp_ctrl_inst/cfg_bus_eth[70]} {udp_ctrl_inst/cfg_bus_eth[71]} {udp_ctrl_inst/cfg_bus_eth[72]} {udp_ctrl_inst/cfg_bus_eth[73]} {udp_ctrl_inst/cfg_bus_eth[74]} {udp_ctrl_inst/cfg_bus_eth[75]} {udp_ctrl_inst/cfg_bus_eth[76]} {udp_ctrl_inst/cfg_bus_eth[77]} {udp_ctrl_inst/cfg_bus_eth[78]} {udp_ctrl_inst/cfg_bus_eth[79]} {udp_ctrl_inst/cfg_bus_eth[80]} {udp_ctrl_inst/cfg_bus_eth[81]} {udp_ctrl_inst/cfg_bus_eth[82]} {udp_ctrl_inst/cfg_bus_eth[83]} {udp_ctrl_inst/cfg_bus_eth[84]} {udp_ctrl_inst/cfg_bus_eth[85]} {udp_ctrl_inst/cfg_bus_eth[86]} {udp_ctrl_inst/cfg_bus_eth[87]} {udp_ctrl_inst/cfg_bus_eth[88]} {udp_ctrl_inst/cfg_bus_eth[89]} {udp_ctrl_inst/cfg_bus_eth[90]} {udp_ctrl_inst/cfg_bus_eth[91]} {udp_ctrl_inst/cfg_bus_eth[92]} {udp_ctrl_inst/cfg_bus_eth[93]} {udp_ctrl_inst/cfg_bus_eth[94]} {udp_ctrl_inst/cfg_bus_eth[95]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe3]
set_property port_width 16 [get_debug_ports u_ila_1/probe3]
connect_debug_port u_ila_1/probe3 [get_nets [list {axis_mac0/rx_payload_len[0]} {axis_mac0/rx_payload_len[1]} {axis_mac0/rx_payload_len[2]} {axis_mac0/rx_payload_len[3]} {axis_mac0/rx_payload_len[4]} {axis_mac0/rx_payload_len[5]} {axis_mac0/rx_payload_len[6]} {axis_mac0/rx_payload_len[7]} {axis_mac0/rx_payload_len[8]} {axis_mac0/rx_payload_len[9]} {axis_mac0/rx_payload_len[10]} {axis_mac0/rx_payload_len[11]} {axis_mac0/rx_payload_len[12]} {axis_mac0/rx_payload_len[13]} {axis_mac0/rx_payload_len[14]} {axis_mac0/rx_payload_len[15]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe4]
set_property port_width 8 [get_debug_ports u_ila_1/probe4]
connect_debug_port u_ila_1/probe4 [get_nets [list {m_axis_rx_tdata[0]} {m_axis_rx_tdata[1]} {m_axis_rx_tdata[2]} {m_axis_rx_tdata[3]} {m_axis_rx_tdata[4]} {m_axis_rx_tdata[5]} {m_axis_rx_tdata[6]} {m_axis_rx_tdata[7]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe5]
set_property port_width 3 [get_debug_ports u_ila_1/probe5]
connect_debug_port u_ila_1/probe5 [get_nets [list {udp_ctrl_inst/eth_state[0]} {udp_ctrl_inst/eth_state[1]} {udp_ctrl_inst/eth_state[2]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe6]
set_property port_width 1 [get_debug_ports u_ila_1/probe6]
connect_debug_port u_ila_1/probe6 [get_nets [list axis_mac0/arp_found]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe7]
set_property port_width 1 [get_debug_ports u_ila_1/probe7]
connect_debug_port u_ila_1/probe7 [get_nets [list udp_ctrl_inst/axis_hs]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe8]
set_property port_width 1 [get_debug_ports u_ila_1/probe8]
connect_debug_port u_ila_1/probe8 [get_nets [list udp_ctrl_inst/busy_flag_eth]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe9]
set_property port_width 1 [get_debug_ports u_ila_1/probe9]
connect_debug_port u_ila_1/probe9 [get_nets [list axis_mac0/m_axis_rx_tlast]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe10]
set_property port_width 1 [get_debug_ports u_ila_1/probe10]
connect_debug_port u_ila_1/probe10 [get_nets [list m_axis_rx_tlast]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe11]
set_property port_width 1 [get_debug_ports u_ila_1/probe11]
connect_debug_port u_ila_1/probe11 [get_nets [list axis_mac0/m_axis_rx_tready]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe12]
set_property port_width 1 [get_debug_ports u_ila_1/probe12]
connect_debug_port u_ila_1/probe12 [get_nets [list m_axis_rx_tready]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe13]
set_property port_width 1 [get_debug_ports u_ila_1/probe13]
connect_debug_port u_ila_1/probe13 [get_nets [list axis_mac0/req_ready]]
create_debug_core u_ila_2 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_2]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_2]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_2]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_2]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_2]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_2]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_2]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_2]
set_property port_width 1 [get_debug_ports u_ila_2/clk]
connect_debug_port u_ila_2/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out1]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe0]
set_property port_width 12 [get_debug_ports u_ila_2/probe0]
connect_debug_port u_ila_2/probe0 [get_nets [list {dac_pulse_height_dbg[0]} {dac_pulse_height_dbg[1]} {dac_pulse_height_dbg[2]} {dac_pulse_height_dbg[3]} {dac_pulse_height_dbg[4]} {dac_pulse_height_dbg[5]} {dac_pulse_height_dbg[6]} {dac_pulse_height_dbg[7]} {dac_pulse_height_dbg[8]} {dac_pulse_height_dbg[9]} {dac_pulse_height_dbg[10]} {dac_pulse_height_dbg[11]}]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe1]
set_property port_width 16 [get_debug_ports u_ila_2/probe1]
connect_debug_port u_ila_2/probe1 [get_nets [list {dac_pulse_num_dbg[0]} {dac_pulse_num_dbg[1]} {dac_pulse_num_dbg[2]} {dac_pulse_num_dbg[3]} {dac_pulse_num_dbg[4]} {dac_pulse_num_dbg[5]} {dac_pulse_num_dbg[6]} {dac_pulse_num_dbg[7]} {dac_pulse_num_dbg[8]} {dac_pulse_num_dbg[9]} {dac_pulse_num_dbg[10]} {dac_pulse_num_dbg[11]} {dac_pulse_num_dbg[12]} {dac_pulse_num_dbg[13]} {dac_pulse_num_dbg[14]} {dac_pulse_num_dbg[15]}]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe2]
set_property port_width 32 [get_debug_ports u_ila_2/probe2]
connect_debug_port u_ila_2/probe2 [get_nets [list {dac_pulse_period_dbg[0]} {dac_pulse_period_dbg[1]} {dac_pulse_period_dbg[2]} {dac_pulse_period_dbg[3]} {dac_pulse_period_dbg[4]} {dac_pulse_period_dbg[5]} {dac_pulse_period_dbg[6]} {dac_pulse_period_dbg[7]} {dac_pulse_period_dbg[8]} {dac_pulse_period_dbg[9]} {dac_pulse_period_dbg[10]} {dac_pulse_period_dbg[11]} {dac_pulse_period_dbg[12]} {dac_pulse_period_dbg[13]} {dac_pulse_period_dbg[14]} {dac_pulse_period_dbg[15]} {dac_pulse_period_dbg[16]} {dac_pulse_period_dbg[17]} {dac_pulse_period_dbg[18]} {dac_pulse_period_dbg[19]} {dac_pulse_period_dbg[20]} {dac_pulse_period_dbg[21]} {dac_pulse_period_dbg[22]} {dac_pulse_period_dbg[23]} {dac_pulse_period_dbg[24]} {dac_pulse_period_dbg[25]} {dac_pulse_period_dbg[26]} {dac_pulse_period_dbg[27]} {dac_pulse_period_dbg[28]} {dac_pulse_period_dbg[29]} {dac_pulse_period_dbg[30]} {dac_pulse_period_dbg[31]}]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe3]
set_property port_width 32 [get_debug_ports u_ila_2/probe3]
connect_debug_port u_ila_2/probe3 [get_nets [list {dac_pulse_width_dbg[0]} {dac_pulse_width_dbg[1]} {dac_pulse_width_dbg[2]} {dac_pulse_width_dbg[3]} {dac_pulse_width_dbg[4]} {dac_pulse_width_dbg[5]} {dac_pulse_width_dbg[6]} {dac_pulse_width_dbg[7]} {dac_pulse_width_dbg[8]} {dac_pulse_width_dbg[9]} {dac_pulse_width_dbg[10]} {dac_pulse_width_dbg[11]} {dac_pulse_width_dbg[12]} {dac_pulse_width_dbg[13]} {dac_pulse_width_dbg[14]} {dac_pulse_width_dbg[15]} {dac_pulse_width_dbg[16]} {dac_pulse_width_dbg[17]} {dac_pulse_width_dbg[18]} {dac_pulse_width_dbg[19]} {dac_pulse_width_dbg[20]} {dac_pulse_width_dbg[21]} {dac_pulse_width_dbg[22]} {dac_pulse_width_dbg[23]} {dac_pulse_width_dbg[24]} {dac_pulse_width_dbg[25]} {dac_pulse_width_dbg[26]} {dac_pulse_width_dbg[27]} {dac_pulse_width_dbg[28]} {dac_pulse_width_dbg[29]} {dac_pulse_width_dbg[30]} {dac_pulse_width_dbg[31]}]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe4]
set_property port_width 1 [get_debug_ports u_ila_2/probe4]
connect_debug_port u_ila_2/probe4 [get_nets [list dac_rst_dbg]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe5]
set_property port_width 1 [get_debug_ports u_ila_2/probe5]
connect_debug_port u_ila_2/probe5 [get_nets [list dac_start_dbg]]
set_property C_CLK_INPUT_FREQ_HZ 300000000 [get_debug_cores dbg_hub]
set_property C_ENABLE_CLK_DIVIDER false [get_debug_cores dbg_hub]
set_property C_USER_SCAN_CHAIN 1 [get_debug_cores dbg_hub]
connect_debug_port dbg_hub/clk [get_nets dac_clk]

298
designs/eth_ctrl_debug/eth_ctrl_debug.sv Normal file
View File

@ -0,0 +1,298 @@
`timescale 1 ns / 1 ns
module eth_ctrl_debug_top #(
parameter int unsigned DAC_DATA_WIDTH = 12
)(
input sys_clk_p,
input sys_clk_n,
input rst_n,
output [3:0] led,
output e_reset,
output e_mdc,
inout e_mdio,
output [3:0] rgmii_txd,
output rgmii_txctl,
output rgmii_txc,
input [3:0] rgmii_rxd,
input rgmii_rxctl,
input rgmii_rxc
);
// -------------------------------------------------------------------------
// Internal GMII-side signals
// -------------------------------------------------------------------------
wire [7:0] gmii_txd;
wire gmii_tx_en;
wire gmii_tx_er;
wire gmii_tx_clk;
wire gmii_crs;
wire gmii_col;
wire [7:0] gmii_rxd_i;
wire gmii_rx_dv;
wire gmii_rx_er;
wire gmii_rx_clk;
wire [31:0] pack_total_len;
wire e_rx_dv;
wire [7:0] e_rxd;
wire e_tx_en;
wire [7:0] e_txd;
wire e_rst_n;
wire sys_clk;
wire duplex_mode;
assign duplex_mode = 1'b1;
// -------------------------------------------------------------------------
// System clock buffer (200 MHz differential input)
// -------------------------------------------------------------------------
IBUFDS sys_clk_ibufgds (
.O (sys_clk),
.I (sys_clk_p),
.IB (sys_clk_n)
);
// -------------------------------------------------------------------------
// IDELAYCTRL
// -------------------------------------------------------------------------
(* IODELAY_GROUP = "rgmii_idelay_group" *)
IDELAYCTRL IDELAYCTRL_inst (
.RDY (),
.REFCLK (sys_clk),
.RST (1'b0)
);
// -------------------------------------------------------------------------
// Generated clocks for controller
// Need to create this IP in Vivado:
// input : 200 MHz
// output0: 130 MHz
// output1: 65 MHz
// -------------------------------------------------------------------------
wire dac_clk;
wire adc_clk;
wire clk_wiz_locked;
clk_wiz_ctrl_inst clk_wiz_ctrl_inst (
.clk_in1 (sys_clk),
.reset (~rst_n),
.clk_out1 (dac_clk), // 130 MHz
.clk_out2 (adc_clk), // 65 MHz
.locked (clk_wiz_locked)
);
// -------------------------------------------------------------------------
// GMII <-> RGMII conversion
// -------------------------------------------------------------------------
util_gmii_to_rgmii util_gmii_to_rgmii_m0 (
.reset (1'b0),
.rgmii_td (rgmii_txd),
.rgmii_tx_ctl (rgmii_txctl),
.rgmii_txc (rgmii_txc),
.rgmii_rd (rgmii_rxd),
.rgmii_rx_ctl (rgmii_rxctl),
.gmii_rx_clk (gmii_rx_clk),
.gmii_txd (e_txd),
.gmii_tx_en (e_tx_en),
.gmii_tx_er (1'b0),
.gmii_tx_clk (gmii_tx_clk),
.gmii_crs (gmii_crs),
.gmii_col (gmii_col),
.gmii_rxd (gmii_rxd_i),
.rgmii_rxc (rgmii_rxc),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rx_er (gmii_rx_er),
.speed_selection (2'b10),
.duplex_mode (duplex_mode)
);
// -------------------------------------------------------------------------
// GMII arbitration / adaptation
// -------------------------------------------------------------------------
gmii_arbi arbi_inst (
.clk (gmii_tx_clk),
.rst_n (rst_n),
.speed (2'b10),
.link (1'b1),
.pack_total_len (pack_total_len),
.e_rst_n (e_rst_n),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rxd (gmii_rxd_i),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.e_rx_dv (e_rx_dv),
.e_rxd (e_rxd),
.e_tx_en (e_tx_en),
.e_txd (e_txd)
);
// -------------------------------------------------------------------------
// axis_mac interface
// RX stream from Ethernet goes into controller
// TX stream is unused for now
// -------------------------------------------------------------------------
wire req_ready;
reg send_req;
reg [15:0] data_length;
reg [7:0] s_axis_tx_tdata;
reg s_axis_tx_tvalid;
wire s_axis_tx_tready;
reg s_axis_tx_tlast;
(* MARK_DEBUG="true" *) wire [7:0] m_axis_rx_tdata;
(* MARK_DEBUG="true" *) wire m_axis_rx_tvalid;
(* MARK_DEBUG="true" *) wire m_axis_rx_tlast;
(* MARK_DEBUG="true" *) wire m_axis_rx_tready;
// Always ready to accept RX payload bytes
assign m_axis_rx_tready = 1'b1;
// TX disabled
always @(*) begin
send_req = 1'b0;
data_length = 16'd0;
s_axis_tx_tdata = 8'd0;
s_axis_tx_tvalid= 1'b0;
s_axis_tx_tlast = 1'b0;
end
axis_mac axis_mac0 (
.gmii_tx_clk (gmii_tx_clk),
.gmii_rx_clk (gmii_rx_clk),
.rst_n (e_rst_n),
.gmii_rx_dv (e_rx_dv),
.gmii_rxd (e_rxd),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.send_req (send_req),
.data_length (data_length),
.req_ready (req_ready),
.s_axis_tx_tdata (s_axis_tx_tdata),
.s_axis_tx_tvalid (s_axis_tx_tvalid),
.s_axis_tx_tready (s_axis_tx_tready),
.s_axis_tx_tlast (s_axis_tx_tlast),
.m_axis_rx_tdata (m_axis_rx_tdata),
.m_axis_rx_tvalid (m_axis_rx_tvalid),
.m_axis_rx_tready (m_axis_rx_tready),
.m_axis_rx_tlast (m_axis_rx_tlast)
);
// PHY reset helper from your original example
reset reset_m0 (
.clk (sys_clk),
.key1 (rst_n),
.rst_n (e_reset)
);
// MDIO lines are not driven here yet
assign e_mdc = 1'b0;
assign e_mdio = 1'bz;
// -------------------------------------------------------------------------
// Controller reset
// Use both external reset and clk_wiz lock
// -------------------------------------------------------------------------
wire ctrl_rst_n = rst_n & clk_wiz_locked;
// -------------------------------------------------------------------------
// Debug finish generator
//
// After each adc_start pulse generates one finish pulse after some delay.
// This is just for first bring-up so the controller can leave busy state
// If you don't want this, replace with:
// wire finish_dbg = 1'b0;
// -------------------------------------------------------------------------
(* MARK_DEBUG="true" *) logic finish_dbg;
(* MARK_DEBUG="true" *) logic [7:0] finish_cnt;
(* MARK_DEBUG="true" *) logic finish_pending;
// Controller outputs to debug
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_width_dbg;
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_period_dbg;
(* MARK_DEBUG="true" *) wire [DAC_DATA_WIDTH-1:0] dac_pulse_height_dbg;
(* MARK_DEBUG="true" *) wire [15:0] dac_pulse_num_dbg;
(* MARK_DEBUG="true" *) wire [31:0] adc_pulse_period_dbg;
(* MARK_DEBUG="true" *) wire [15:0] adc_pulse_num_dbg;
(* MARK_DEBUG="true" *) wire dac_start_dbg;
(* MARK_DEBUG="true" *) wire adc_start_dbg;
(* MARK_DEBUG="true" *) wire dac_rst_dbg;
(* MARK_DEBUG="true" *) wire adc_rst_dbg;
always_ff @(posedge adc_clk or negedge ctrl_rst_n) begin
if (!ctrl_rst_n) begin
finish_dbg <= 1'b0;
finish_cnt <= 8'd0;
finish_pending <= 1'b0;
end else begin
finish_dbg <= 1'b0;
if (adc_start_dbg) begin
finish_pending <= 1'b1;
finish_cnt <= 8'd80;
end else if (finish_pending) begin
if (finish_cnt == 8'd0) begin
finish_dbg <= 1'b1;
finish_pending <= 1'b0;
end else begin
finish_cnt <= finish_cnt - 8'd1;
end
end
end
end
// -------------------------------------------------------------------------
// Controller
// ETH domain = gmii_rx_clk, because RX AXI master comes from axis_mac RX side
// -------------------------------------------------------------------------
control #(
.DAC_DATA_WIDTH(DAC_DATA_WIDTH)
) udp_ctrl_inst (
.eth_clk_in (gmii_rx_clk),
.dac_clk_in (dac_clk),
.adc_clk_in (adc_clk),
.rst_n (ctrl_rst_n),
.s_axis_tdata (m_axis_rx_tdata),
.s_axis_tvalid (m_axis_rx_tvalid),
.s_axis_tready (), // controller internally always ready in current version
.s_axis_tlast (m_axis_rx_tlast),
.finish (finish_dbg),
.dac_pulse_width (dac_pulse_width_dbg),
.dac_pulse_period (dac_pulse_period_dbg),
.dac_pulse_height (dac_pulse_height_dbg),
.dac_pulse_num (dac_pulse_num_dbg),
.adc_pulse_period (adc_pulse_period_dbg),
.adc_pulse_num (adc_pulse_num_dbg),
.dac_start (dac_start_dbg),
.adc_start (adc_start_dbg),
.dac_rst (dac_rst_dbg),
.adc_rst (adc_rst_dbg)
);
// -------------------------------------------------------------------------
// Simple LED status
// -------------------------------------------------------------------------
assign led[0] = clk_wiz_locked;
assign led[1] = m_axis_rx_tvalid;
assign led[2] = dac_start_dbg;
assign led[3] = adc_rst_dbg;
endmodule

689
designs/eth_ctrl_debug/ip/clk_wiz_ctrl_inst.xci Normal file
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{
"schema": "xilinx.com:schema:json_instance:1.0",
"ip_inst": {
"xci_name": "clk_wiz_ctrl_inst",
"component_reference": "xilinx.com:ip:clk_wiz:6.0",
"ip_revision": "16",
"gen_directory": "../../../../eth_ctrl_debug_top.gen/sources_1/ip/clk_wiz_ctrl_inst",
"parameters": {
"component_parameters": {
"Component_Name": [ { "value": "clk_wiz_ctrl_inst", "resolve_type": "user", "usage": "all" } ],
"USER_CLK_FREQ0": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ1": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ2": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ3": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"ENABLE_CLOCK_MONITOR": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OPTIMIZE_CLOCKING_STRUCTURE_EN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK2": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK3": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"REF_CLK_FREQ": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRECISION": [ { "value": "1", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"PRIMTYPE_SEL": [ { "value": "mmcm_adv", "resolve_type": "user", "usage": "all" } ],
"CLOCK_MGR_TYPE": [ { "value": "auto", "resolve_type": "user", "usage": "all" } ],
"USE_FREQ_SYNTH": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_SPREAD_SPECTRUM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_PHASE_ALIGNMENT": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_POWER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_PHASE_SHIFT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_RECONFIG": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"JITTER_SEL": [ { "value": "No_Jitter", "resolve_type": "user", "usage": "all" } ],
"PRIM_IN_FREQ": [ { "value": "200.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "user", "usage": "all" } ],
"PHASESHIFT_MODE": [ { "value": "WAVEFORM", "resolve_type": "user", "usage": "all" } ],
"IN_JITTER_UNITS": [ { "value": "Units_UI", "resolve_type": "user", "usage": "all" } ],
"RELATIVE_INCLK": [ { "value": "REL_PRIMARY", "resolve_type": "user", "usage": "all" } ],
"USE_INCLK_SWITCHOVER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"SECONDARY_IN_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "user", "usage": "all" } ],
"SECONDARY_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"JITTER_OPTIONS": [ { "value": "UI", "resolve_type": "user", "usage": "all" } ],
"CLKIN1_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN1_JITTER_PS": [ { "value": "50.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_USED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_USED": [ { "value": "true", "value_src": "user", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"NUM_OUT_CLKS": [ { "value": "2", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLK_OUT1_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT2_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT3_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT4_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT5_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT6_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT7_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT5_PORT": [ { "value": "clk_out5", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT6_PORT": [ { "value": "clk_out6", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT7_PORT": [ { "value": "clk_out7", "resolve_type": "user", "usage": "all" } ],
"DADDR_PORT": [ { "value": "daddr", "resolve_type": "user", "usage": "all" } ],
"DCLK_PORT": [ { "value": "dclk", "resolve_type": "user", "usage": "all" } ],
"DRDY_PORT": [ { "value": "drdy", "resolve_type": "user", "usage": "all" } ],
"DWE_PORT": [ { "value": "dwe", "resolve_type": "user", "usage": "all" } ],
"DIN_PORT": [ { "value": "din", "resolve_type": "user", "usage": "all" } ],
"DOUT_PORT": [ { "value": "dout", "resolve_type": "user", "usage": "all" } ],
"DEN_PORT": [ { "value": "den", "resolve_type": "user", "usage": "all" } ],
"PSCLK_PORT": [ { "value": "psclk", "resolve_type": "user", "usage": "all" } ],
"PSEN_PORT": [ { "value": "psen", "resolve_type": "user", "usage": "all" } ],
"PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "user", "usage": "all" } ],
"PSDONE_PORT": [ { "value": "psdone", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_REQUESTED_OUT_FREQ": [ { "value": "130.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_OUT_FREQ": [ { "value": "65.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USE_MAX_I_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_O_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIM_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT2_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT3_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT4_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT5_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT6_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT7_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"FEEDBACK_SOURCE": [ { "value": "FDBK_AUTO", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_SIGNALING": [ { "value": "SINGLE", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "user", "usage": "all" } ],
"PLATFORM": [ { "value": "UNKNOWN", "resolve_type": "user", "usage": "all" } ],
"SUMMARY_STRINGS": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_LOCKED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CALC_DONE": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_RESET": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_POWER_DOWN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_STATUS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_FREEZE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLK_VALID": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_INCLK_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLKFB_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"RESET_PORT": [ { "value": "reset", "resolve_type": "user", "usage": "all" } ],
"LOCKED_PORT": [ { "value": "locked", "resolve_type": "user", "usage": "all" } ],
"POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "user", "usage": "all" } ],
"CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "user", "usage": "all" } ],
"STATUS_PORT": [ { "value": "STATUS", "resolve_type": "user", "usage": "all" } ],
"CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "user", "usage": "all" } ],
"INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "user", "usage": "all" } ],
"CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "user", "usage": "all" } ],
"SS_MODE": [ { "value": "CENTER_HIGH", "resolve_type": "user", "usage": "all" } ],
"SS_MOD_FREQ": [ { "value": "250", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SS_MOD_TIME": [ { "value": "0.004", "resolve_type": "user", "format": "float", "usage": "all" } ],
"OVERRIDE_MMCM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"MMCM_DIVCLK_DIVIDE": [ { "value": "1", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"MMCM_CLKFBOUT_MULT_F": [ { "value": "4.875", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKIN1_PERIOD": [ { "value": "5.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKIN2_PERIOD": [ { "value": "10.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_CASCADE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLOCK_HOLD": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "user", "usage": "all" } ],
"MMCM_REF_JITTER1": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_REF_JITTER2": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_STARTUP_WAIT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT0_DIVIDE_F": [ { "value": "7.500", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT1_DIVIDE": [ { "value": "15", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT6_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT6_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OVERRIDE_PLL": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PLL_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"PLL_CLKFBOUT_MULT": [ { "value": "4", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLK_FEEDBACK": [ { "value": "CLKFBOUT", "resolve_type": "user", "usage": "all" } ],
"PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKIN_PERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "user", "usage": "all" } ],
"PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"RESET_TYPE": [ { "value": "ACTIVE_HIGH", "resolve_type": "user", "usage": "all" } ],
"USE_SAFE_CLOCK_STARTUP": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLOCK_SEQUENCING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT2_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT3_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT4_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT5_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT6_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT7_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"USE_BOARD_FLOW": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"AUTO_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"RESET_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CDDC": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "user", "usage": "all" } ],
"CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CLKOUTPHY": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUTPHY_REQUESTED_FREQ": [ { "value": "600.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_JITTER": [ { "value": "102.676", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_PHASE_ERROR": [ { "value": "87.159", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_JITTER": [ { "value": "117.878", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
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"CLKOUT3_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
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"CLKOUT4_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
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"CLKOUT6_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
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"CLKOUT7_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"INPUT_MODE": [ { "value": "frequency", "resolve_type": "user", "usage": "all" } ],
"INTERFACE_SELECTION": [ { "value": "Enable_AXI", "resolve_type": "user", "usage": "all" } ],
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"PHASE_DUTY_CONFIG": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ]
},
"model_parameters": {
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"C_USER_CLK_FREQ0": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_AUTO_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "generated", "usage": "all" } ],
"C_USER_CLK_FREQ1": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_USER_CLK_FREQ3": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_ENABLE_CLOCK_MONITOR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_Enable_PLL0": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_Enable_PLL1": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_REF_CLK_FREQ": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRECISION": [ { "value": "1", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT4_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT5_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT6_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT7_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT1_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT2_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT3_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT4_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"c_component_name": [ { "value": "clk_wiz_ctrl_inst", "resolve_type": "generated", "usage": "all" } ],
"C_PLATFORM": [ { "value": "UNKNOWN", "resolve_type": "generated", "usage": "all" } ],
"C_USE_FREQ_SYNTH": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_PHASE_ALIGNMENT": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIM_IN_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_SECONDARY_IN_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_JITTER_SEL": [ { "value": "No_Jitter", "resolve_type": "generated", "usage": "all" } ],
"C_USE_MIN_POWER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_MIN_O_JITTER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_MAX_I_JITTER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_DYN_PHASE_SHIFT": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_OPTIMIZE_CLOCKING_STRUCTURE_EN": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_INCLK_SWITCHOVER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_DYN_RECONFIG": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_SPREAD_SPECTRUM": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_FAST_SIMULATION": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIMTYPE_SEL": [ { "value": "AUTO", "resolve_type": "generated", "usage": "all" } ],
"C_USE_CLK_VALID": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIM_IN_FREQ": [ { "value": "200.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_IN_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_SECONDARY_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_FEEDBACK_SOURCE": [ { "value": "FDBK_AUTO", "resolve_type": "generated", "usage": "all" } ],
"C_PRIM_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "generated", "usage": "all" } ],
"C_PHASESHIFT_MODE": [ { "value": "WAVEFORM", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_SIGNALING": [ { "value": "SINGLE", "resolve_type": "generated", "usage": "all" } ],
"C_USE_RESET": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_RESET_LOW": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_LOCKED": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_INCLK_STOPPED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKFB_STOPPED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_POWER_DOWN": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_STATUS": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_FREEZE": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_NUM_OUT_CLKS": [ { "value": "2", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT1_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT7_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW0": [ { "value": "Input Clock Freq (MHz) Input Jitter (UI)", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW1": [ { "value": "__primary_________200.000____________0.010", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW2": [ { "value": "no_secondary_input_clock ", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW0A": [ { "value": " Output Output Phase Duty Cycle Pk-to-Pk Phase", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW0B": [ { "value": " Clock Freq (MHz) (degrees) (%) Jitter (ps) Error (ps)", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW1": [ { "value": "clk_out1__130.00000______0.000______50.0______102.676_____87.159", "resolve_type": "generated", "usage": "all" } ],
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"C_OUTCLK_SUM_ROW3": [ { "value": "no_CLK_OUT3_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW4": [ { "value": "no_CLK_OUT4_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW5": [ { "value": "no_CLK_OUT5_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW6": [ { "value": "no_CLK_OUT6_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW7": [ { "value": "no_CLK_OUT7_output", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_OUT_FREQ": [ { "value": "130.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_OUT_FREQ": [ { "value": "65.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_OUT_FREQ": [ { "value": "130.00000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_OUT_FREQ": [ { "value": "65.00000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_DUTY_CYCLE": [ { "value": "50.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_DUTY_CYCLE": [ { "value": "50.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_CLKOUT7_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_MMCM_NOTES": [ { "value": "None", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_CLKFBOUT_MULT_F": [ { "value": "4.875", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_MMCM_CLKOUT4_CASCADE": [ { "value": "FALSE", "resolve_type": "generated", "format": "bool", "usage": "all" } ],
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"C_MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_MMCM_STARTUP_WAIT": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_CLKOUT0_DIVIDE_F": [ { "value": "7.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_MMCM_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_MMCM_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_MMCM_CLKOUT6_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_MMCM_CLKFBOUT_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_CLKOUT0_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
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"C_MMCM_CLKOUT6_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_NOTES": [ { "value": "No notes", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_CLK_FEEDBACK": [ { "value": "CLKFBOUT", "resolve_type": "generated", "usage": "all" } ],
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"C_PLL_CLKIN_PERIOD": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT1_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_PLL_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLOCK_MGR_TYPE": [ { "value": "NA", "resolve_type": "generated", "usage": "all" } ],
"C_OVERRIDE_MMCM": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_OVERRIDE_PLL": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT5_PORT": [ { "value": "clk_out5", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT6_PORT": [ { "value": "clk_out6", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT7_PORT": [ { "value": "clk_out7", "resolve_type": "generated", "usage": "all" } ],
"C_RESET_PORT": [ { "value": "reset", "resolve_type": "generated", "usage": "all" } ],
"C_LOCKED_PORT": [ { "value": "locked", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "generated", "usage": "all" } ],
"C_POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "generated", "usage": "all" } ],
"C_DADDR_PORT": [ { "value": "daddr", "resolve_type": "generated", "usage": "all" } ],
"C_DCLK_PORT": [ { "value": "dclk", "resolve_type": "generated", "usage": "all" } ],
"C_DRDY_PORT": [ { "value": "drdy", "resolve_type": "generated", "usage": "all" } ],
"C_DWE_PORT": [ { "value": "dwe", "resolve_type": "generated", "usage": "all" } ],
"C_DIN_PORT": [ { "value": "din", "resolve_type": "generated", "usage": "all" } ],
"C_DOUT_PORT": [ { "value": "dout", "resolve_type": "generated", "usage": "all" } ],
"C_DEN_PORT": [ { "value": "den", "resolve_type": "generated", "usage": "all" } ],
"C_PSCLK_PORT": [ { "value": "psclk", "resolve_type": "generated", "usage": "all" } ],
"C_PSEN_PORT": [ { "value": "psen", "resolve_type": "generated", "usage": "all" } ],
"C_PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "generated", "usage": "all" } ],
"C_PSDONE_PORT": [ { "value": "psdone", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "generated", "usage": "all" } ],
"C_STATUS_PORT": [ { "value": "STATUS", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "generated", "usage": "all" } ],
"C_INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "generated", "usage": "all" } ],
"C_CLKIN1_JITTER_PS": [ { "value": "50.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "generated", "usage": "all" } ],
"C_SS_MODE": [ { "value": "CENTER_HIGH", "resolve_type": "generated", "usage": "all" } ],
"C_SS_MOD_PERIOD": [ { "value": "4000", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_SS_MOD_TIME": [ { "value": "0.004", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_HAS_CDDC": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "generated", "usage": "all" } ],
"C_CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUTPHY_MODE": [ { "value": "VCO", "resolve_type": "generated", "usage": "all" } ],
"C_ENABLE_CLKOUTPHY": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_INTERFACE_SELECTION": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_S_AXI_ADDR_WIDTH": [ { "value": "11", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_S_AXI_DATA_WIDTH": [ { "value": "32", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_POWER_REG": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVCLK": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_3": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_FILTER_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_FILTER_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE1_AUTO": [ { "value": "1", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE2_AUTO": [ { "value": "2.0", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE3_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE4_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE5_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE6_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE7_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV5": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV6": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV7": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_ACTUAL_FREQ": [ { "value": "130.00000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_ACTUAL_FREQ": [ { "value": "65.00000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_M_MAX": [ { "value": "64.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_M_MIN": [ { "value": "2.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MAX": [ { "value": "80.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MAX": [ { "value": "128.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MIN": [ { "value": "600.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MAX": [ { "value": "1200.000", "resolve_type": "generated", "format": "float", "usage": "all" } ]
},
"project_parameters": {
"ARCHITECTURE": [ { "value": "artix7" } ],
"BASE_BOARD_PART": [ { "value": "" } ],
"BOARD_CONNECTIONS": [ { "value": "" } ],
"DEVICE": [ { "value": "xc7a35t" } ],
"PACKAGE": [ { "value": "fgg484" } ],
"PREFHDL": [ { "value": "VERILOG" } ],
"SILICON_REVISION": [ { "value": "" } ],
"SIMULATOR_LANGUAGE": [ { "value": "MIXED" } ],
"SPEEDGRADE": [ { "value": "-1" } ],
"STATIC_POWER": [ { "value": "" } ],
"TEMPERATURE_GRADE": [ { "value": "" } ]
},
"runtime_parameters": {
"IPCONTEXT": [ { "value": "IP_Flow" } ],
"IPREVISION": [ { "value": "16" } ],
"MANAGED": [ { "value": "TRUE" } ],
"OUTPUTDIR": [ { "value": "../../../../eth_ctrl_debug_top.gen/sources_1/ip/clk_wiz_ctrl_inst" } ],
"SELECTEDSIMMODEL": [ { "value": "" } ],
"SHAREDDIR": [ { "value": "." } ],
"SWVERSION": [ { "value": "2025.1" } ],
"SYNTHESISFLOW": [ { "value": "OUT_OF_CONTEXT" } ]
}
},
"boundary": {
"ports": {
"reset": [ { "direction": "in", "driver_value": "0" } ],
"clk_in1": [ { "direction": "in" } ],
"clk_out1": [ { "direction": "out" } ],
"clk_out2": [ { "direction": "out" } ],
"locked": [ { "direction": "out" } ]
},
"interfaces": {
"reset": {
"vlnv": "xilinx.com:signal:reset:1.0",
"abstraction_type": "xilinx.com:signal:reset_rtl:1.0",
"mode": "slave",
"parameters": {
"POLARITY": [ { "value": "ACTIVE_HIGH", "value_src": "constant", "usage": "all" } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "RESET_BOARD_INTERFACE", "value_src": "constant", "usage": "all" } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"RST": [ { "physical_name": "reset" } ]
}
},
"clock_CLK_IN1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "slave",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "CLK_IN1_BOARD_INTERFACE", "usage": "all", "is_static_object": false } ]
},
"port_maps": {
"CLK_IN1": [ { "physical_name": "clk_in1" } ]
}
},
"clock_CLK_OUT1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT1": [ { "physical_name": "clk_out1" } ]
}
},
"clock_CLK_OUT2": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT2": [ { "physical_name": "clk_out2" } ]
}
}
}
}
}
}

52
designs/eth_generator/Makefile Normal file
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@ -0,0 +1,52 @@
# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = eth_generator_top
FPGA_ARCH = artix7
RTL_DIR = ../../rtl
include ../../scripts/vivado.mk
SYN_FILES += eth_generator.sv
SYN_FILES += $(sort $(shell find ../../rtl -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../../rtl/ethernet-udp/src -type f -name '*.xci'))
XCI_FILES += $(sort $(shell find ip/ -type f -name '*.xci'))
XDC_FILES += ../../constraints/ax7a035b.xdc
XDC_FILES += debug.xdc
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

11
designs/eth_generator/README.md Normal file
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# Тестовый проект Generator + ETH + CTRL
Проект состоит из AXIS Ethernet, контроллера и генератора. Позволяет генерировать сигналы, задав параметры через Ethernet.
## Сборка
```make all``` - собрать все до битстрима
```make vivado``` - открыть проект в Vivado
## Управление
Используйте software/console.py. Пример:
```python3 console.py --pulse_width 3_500_000 --pulse_period 20_000_000 --pulse_height 10000 --pulse_num 5500 --dac-bits 14```

117
designs/eth_generator/debug.xdc Normal file
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set_clock_groups -name ASYNC_UDP_CTRL -asynchronous -group [get_clocks rgmii_rxc] -group [get_clocks clk_out1_clk_wiz_ctrl_inst] -group [get_clocks clk_out2_clk_wiz_ctrl_inst]
connect_debug_port u_ila_2/probe0 [get_nets [list {dac_pulse_height_dbg[0]} {dac_pulse_height_dbg[1]} {dac_pulse_height_dbg[2]} {dac_pulse_height_dbg[3]} {dac_pulse_height_dbg[4]} {dac_pulse_height_dbg[5]} {dac_pulse_height_dbg[6]} {dac_pulse_height_dbg[7]} {dac_pulse_height_dbg[8]} {dac_pulse_height_dbg[9]} {dac_pulse_height_dbg[10]} {dac_pulse_height_dbg[11]}]]
connect_debug_port u_ila_2/probe1 [get_nets [list {dac_pulse_num_dbg[0]} {dac_pulse_num_dbg[1]} {dac_pulse_num_dbg[2]} {dac_pulse_num_dbg[3]} {dac_pulse_num_dbg[4]} {dac_pulse_num_dbg[5]} {dac_pulse_num_dbg[6]} {dac_pulse_num_dbg[7]} {dac_pulse_num_dbg[8]} {dac_pulse_num_dbg[9]} {dac_pulse_num_dbg[10]} {dac_pulse_num_dbg[11]} {dac_pulse_num_dbg[12]} {dac_pulse_num_dbg[13]} {dac_pulse_num_dbg[14]} {dac_pulse_num_dbg[15]}]]
connect_debug_port u_ila_2/probe2 [get_nets [list {dac_pulse_period_dbg[0]} {dac_pulse_period_dbg[1]} {dac_pulse_period_dbg[2]} {dac_pulse_period_dbg[3]} {dac_pulse_period_dbg[4]} {dac_pulse_period_dbg[5]} {dac_pulse_period_dbg[6]} {dac_pulse_period_dbg[7]} {dac_pulse_period_dbg[8]} {dac_pulse_period_dbg[9]} {dac_pulse_period_dbg[10]} {dac_pulse_period_dbg[11]} {dac_pulse_period_dbg[12]} {dac_pulse_period_dbg[13]} {dac_pulse_period_dbg[14]} {dac_pulse_period_dbg[15]} {dac_pulse_period_dbg[16]} {dac_pulse_period_dbg[17]} {dac_pulse_period_dbg[18]} {dac_pulse_period_dbg[19]} {dac_pulse_period_dbg[20]} {dac_pulse_period_dbg[21]} {dac_pulse_period_dbg[22]} {dac_pulse_period_dbg[23]} {dac_pulse_period_dbg[24]} {dac_pulse_period_dbg[25]} {dac_pulse_period_dbg[26]} {dac_pulse_period_dbg[27]} {dac_pulse_period_dbg[28]} {dac_pulse_period_dbg[29]} {dac_pulse_period_dbg[30]} {dac_pulse_period_dbg[31]}]]
connect_debug_port u_ila_2/probe3 [get_nets [list {dac_pulse_width_dbg[0]} {dac_pulse_width_dbg[1]} {dac_pulse_width_dbg[2]} {dac_pulse_width_dbg[3]} {dac_pulse_width_dbg[4]} {dac_pulse_width_dbg[5]} {dac_pulse_width_dbg[6]} {dac_pulse_width_dbg[7]} {dac_pulse_width_dbg[8]} {dac_pulse_width_dbg[9]} {dac_pulse_width_dbg[10]} {dac_pulse_width_dbg[11]} {dac_pulse_width_dbg[12]} {dac_pulse_width_dbg[13]} {dac_pulse_width_dbg[14]} {dac_pulse_width_dbg[15]} {dac_pulse_width_dbg[16]} {dac_pulse_width_dbg[17]} {dac_pulse_width_dbg[18]} {dac_pulse_width_dbg[19]} {dac_pulse_width_dbg[20]} {dac_pulse_width_dbg[21]} {dac_pulse_width_dbg[22]} {dac_pulse_width_dbg[23]} {dac_pulse_width_dbg[24]} {dac_pulse_width_dbg[25]} {dac_pulse_width_dbg[26]} {dac_pulse_width_dbg[27]} {dac_pulse_width_dbg[28]} {dac_pulse_width_dbg[29]} {dac_pulse_width_dbg[30]} {dac_pulse_width_dbg[31]}]]
connect_debug_port u_ila_2/probe4 [get_nets [list dac_rst_dbg]]
connect_debug_port u_ila_2/probe5 [get_nets [list dac_start_dbg]]
connect_debug_port u_ila_1/probe7 [get_nets [list p2_wrt_OBUF]]
create_debug_core u_ila_0 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_0]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_0]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_0]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_0]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_0]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_0]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_0]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_0]
set_property port_width 1 [get_debug_ports u_ila_0/clk]
connect_debug_port u_ila_0/clk [get_nets [list rgmii_rxc_IBUF_BUFG]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe0]
set_property port_width 3 [get_debug_ports u_ila_0/probe0]
connect_debug_port u_ila_0/probe0 [get_nets [list {udp_ctrl_inst/eth_state[0]} {udp_ctrl_inst/eth_state[1]} {udp_ctrl_inst/eth_state[2]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe1]
set_property port_width 96 [get_debug_ports u_ila_0/probe1]
connect_debug_port u_ila_0/probe1 [get_nets [list {udp_ctrl_inst/cfg_bus_eth[0]} {udp_ctrl_inst/cfg_bus_eth[1]} {udp_ctrl_inst/cfg_bus_eth[2]} {udp_ctrl_inst/cfg_bus_eth[3]} {udp_ctrl_inst/cfg_bus_eth[4]} {udp_ctrl_inst/cfg_bus_eth[5]} {udp_ctrl_inst/cfg_bus_eth[6]} {udp_ctrl_inst/cfg_bus_eth[7]} {udp_ctrl_inst/cfg_bus_eth[8]} {udp_ctrl_inst/cfg_bus_eth[9]} {udp_ctrl_inst/cfg_bus_eth[10]} {udp_ctrl_inst/cfg_bus_eth[11]} {udp_ctrl_inst/cfg_bus_eth[12]} {udp_ctrl_inst/cfg_bus_eth[13]} {udp_ctrl_inst/cfg_bus_eth[14]} {udp_ctrl_inst/cfg_bus_eth[15]} {udp_ctrl_inst/cfg_bus_eth[16]} {udp_ctrl_inst/cfg_bus_eth[17]} {udp_ctrl_inst/cfg_bus_eth[18]} {udp_ctrl_inst/cfg_bus_eth[19]} {udp_ctrl_inst/cfg_bus_eth[20]} {udp_ctrl_inst/cfg_bus_eth[21]} {udp_ctrl_inst/cfg_bus_eth[22]} {udp_ctrl_inst/cfg_bus_eth[23]} {udp_ctrl_inst/cfg_bus_eth[24]} {udp_ctrl_inst/cfg_bus_eth[25]} {udp_ctrl_inst/cfg_bus_eth[26]} {udp_ctrl_inst/cfg_bus_eth[27]} {udp_ctrl_inst/cfg_bus_eth[28]} {udp_ctrl_inst/cfg_bus_eth[29]} {udp_ctrl_inst/cfg_bus_eth[30]} {udp_ctrl_inst/cfg_bus_eth[31]} {udp_ctrl_inst/cfg_bus_eth[32]} {udp_ctrl_inst/cfg_bus_eth[33]} {udp_ctrl_inst/cfg_bus_eth[34]} {udp_ctrl_inst/cfg_bus_eth[35]} {udp_ctrl_inst/cfg_bus_eth[36]} {udp_ctrl_inst/cfg_bus_eth[37]} {udp_ctrl_inst/cfg_bus_eth[38]} {udp_ctrl_inst/cfg_bus_eth[39]} {udp_ctrl_inst/cfg_bus_eth[40]} {udp_ctrl_inst/cfg_bus_eth[41]} {udp_ctrl_inst/cfg_bus_eth[42]} {udp_ctrl_inst/cfg_bus_eth[43]} {udp_ctrl_inst/cfg_bus_eth[44]} {udp_ctrl_inst/cfg_bus_eth[45]} {udp_ctrl_inst/cfg_bus_eth[46]} {udp_ctrl_inst/cfg_bus_eth[47]} {udp_ctrl_inst/cfg_bus_eth[48]} {udp_ctrl_inst/cfg_bus_eth[49]} {udp_ctrl_inst/cfg_bus_eth[50]} {udp_ctrl_inst/cfg_bus_eth[51]} {udp_ctrl_inst/cfg_bus_eth[52]} {udp_ctrl_inst/cfg_bus_eth[53]} {udp_ctrl_inst/cfg_bus_eth[54]} {udp_ctrl_inst/cfg_bus_eth[55]} {udp_ctrl_inst/cfg_bus_eth[56]} {udp_ctrl_inst/cfg_bus_eth[57]} {udp_ctrl_inst/cfg_bus_eth[58]} {udp_ctrl_inst/cfg_bus_eth[59]} {udp_ctrl_inst/cfg_bus_eth[60]} {udp_ctrl_inst/cfg_bus_eth[61]} {udp_ctrl_inst/cfg_bus_eth[62]} {udp_ctrl_inst/cfg_bus_eth[63]} {udp_ctrl_inst/cfg_bus_eth[64]} {udp_ctrl_inst/cfg_bus_eth[65]} {udp_ctrl_inst/cfg_bus_eth[66]} {udp_ctrl_inst/cfg_bus_eth[67]} {udp_ctrl_inst/cfg_bus_eth[68]} {udp_ctrl_inst/cfg_bus_eth[69]} {udp_ctrl_inst/cfg_bus_eth[70]} {udp_ctrl_inst/cfg_bus_eth[71]} {udp_ctrl_inst/cfg_bus_eth[72]} {udp_ctrl_inst/cfg_bus_eth[73]} {udp_ctrl_inst/cfg_bus_eth[74]} {udp_ctrl_inst/cfg_bus_eth[75]} {udp_ctrl_inst/cfg_bus_eth[76]} {udp_ctrl_inst/cfg_bus_eth[77]} {udp_ctrl_inst/cfg_bus_eth[78]} {udp_ctrl_inst/cfg_bus_eth[79]} {udp_ctrl_inst/cfg_bus_eth[80]} {udp_ctrl_inst/cfg_bus_eth[81]} {udp_ctrl_inst/cfg_bus_eth[82]} {udp_ctrl_inst/cfg_bus_eth[83]} {udp_ctrl_inst/cfg_bus_eth[84]} {udp_ctrl_inst/cfg_bus_eth[85]} {udp_ctrl_inst/cfg_bus_eth[86]} {udp_ctrl_inst/cfg_bus_eth[87]} {udp_ctrl_inst/cfg_bus_eth[88]} {udp_ctrl_inst/cfg_bus_eth[89]} {udp_ctrl_inst/cfg_bus_eth[90]} {udp_ctrl_inst/cfg_bus_eth[91]} {udp_ctrl_inst/cfg_bus_eth[92]} {udp_ctrl_inst/cfg_bus_eth[93]} {udp_ctrl_inst/cfg_bus_eth[94]} {udp_ctrl_inst/cfg_bus_eth[95]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe2]
set_property port_width 8 [get_debug_ports u_ila_0/probe2]
connect_debug_port u_ila_0/probe2 [get_nets [list {m_axis_rx_tdata[0]} {m_axis_rx_tdata[1]} {m_axis_rx_tdata[2]} {m_axis_rx_tdata[3]} {m_axis_rx_tdata[4]} {m_axis_rx_tdata[5]} {m_axis_rx_tdata[6]} {m_axis_rx_tdata[7]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe3]
set_property port_width 1 [get_debug_ports u_ila_0/probe3]
connect_debug_port u_ila_0/probe3 [get_nets [list udp_ctrl_inst/axis_hs]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe4]
set_property port_width 1 [get_debug_ports u_ila_0/probe4]
connect_debug_port u_ila_0/probe4 [get_nets [list udp_ctrl_inst/busy_flag_eth]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe5]
set_property port_width 1 [get_debug_ports u_ila_0/probe5]
connect_debug_port u_ila_0/probe5 [get_nets [list m_axis_rx_tlast]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe6]
set_property port_width 1 [get_debug_ports u_ila_0/probe6]
connect_debug_port u_ila_0/probe6 [get_nets [list m_axis_rx_tready]]
create_debug_core u_ila_1 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_1]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_1]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_1]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_1]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_1]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_1]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_1]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_1]
set_property port_width 1 [get_debug_ports u_ila_1/clk]
connect_debug_port u_ila_1/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out1]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe0]
set_property port_width 14 [get_debug_ports u_ila_1/probe0]
connect_debug_port u_ila_1/probe0 [get_nets [list {p2_data_OBUF[0]} {p2_data_OBUF[1]} {p2_data_OBUF[2]} {p2_data_OBUF[3]} {p2_data_OBUF[4]} {p2_data_OBUF[5]} {p2_data_OBUF[6]} {p2_data_OBUF[7]} {p2_data_OBUF[8]} {p2_data_OBUF[9]} {p2_data_OBUF[10]} {p2_data_OBUF[11]} {p2_data_OBUF[12]} {p2_data_OBUF[13]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe1]
set_property port_width 16 [get_debug_ports u_ila_1/probe1]
connect_debug_port u_ila_1/probe1 [get_nets [list {dac_pulse_num[0]} {dac_pulse_num[1]} {dac_pulse_num[2]} {dac_pulse_num[3]} {dac_pulse_num[4]} {dac_pulse_num[5]} {dac_pulse_num[6]} {dac_pulse_num[7]} {dac_pulse_num[8]} {dac_pulse_num[9]} {dac_pulse_num[10]} {dac_pulse_num[11]} {dac_pulse_num[12]} {dac_pulse_num[13]} {dac_pulse_num[14]} {dac_pulse_num[15]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe2]
set_property port_width 14 [get_debug_ports u_ila_1/probe2]
connect_debug_port u_ila_1/probe2 [get_nets [list {dac_pulse_height[0]} {dac_pulse_height[1]} {dac_pulse_height[2]} {dac_pulse_height[3]} {dac_pulse_height[4]} {dac_pulse_height[5]} {dac_pulse_height[6]} {dac_pulse_height[7]} {dac_pulse_height[8]} {dac_pulse_height[9]} {dac_pulse_height[10]} {dac_pulse_height[11]} {dac_pulse_height[12]} {dac_pulse_height[13]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe3]
set_property port_width 32 [get_debug_ports u_ila_1/probe3]
connect_debug_port u_ila_1/probe3 [get_nets [list {dac_pulse_period[0]} {dac_pulse_period[1]} {dac_pulse_period[2]} {dac_pulse_period[3]} {dac_pulse_period[4]} {dac_pulse_period[5]} {dac_pulse_period[6]} {dac_pulse_period[7]} {dac_pulse_period[8]} {dac_pulse_period[9]} {dac_pulse_period[10]} {dac_pulse_period[11]} {dac_pulse_period[12]} {dac_pulse_period[13]} {dac_pulse_period[14]} {dac_pulse_period[15]} {dac_pulse_period[16]} {dac_pulse_period[17]} {dac_pulse_period[18]} {dac_pulse_period[19]} {dac_pulse_period[20]} {dac_pulse_period[21]} {dac_pulse_period[22]} {dac_pulse_period[23]} {dac_pulse_period[24]} {dac_pulse_period[25]} {dac_pulse_period[26]} {dac_pulse_period[27]} {dac_pulse_period[28]} {dac_pulse_period[29]} {dac_pulse_period[30]} {dac_pulse_period[31]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe4]
set_property port_width 32 [get_debug_ports u_ila_1/probe4]
connect_debug_port u_ila_1/probe4 [get_nets [list {dac_pulse_width[0]} {dac_pulse_width[1]} {dac_pulse_width[2]} {dac_pulse_width[3]} {dac_pulse_width[4]} {dac_pulse_width[5]} {dac_pulse_width[6]} {dac_pulse_width[7]} {dac_pulse_width[8]} {dac_pulse_width[9]} {dac_pulse_width[10]} {dac_pulse_width[11]} {dac_pulse_width[12]} {dac_pulse_width[13]} {dac_pulse_width[14]} {dac_pulse_width[15]} {dac_pulse_width[16]} {dac_pulse_width[17]} {dac_pulse_width[18]} {dac_pulse_width[19]} {dac_pulse_width[20]} {dac_pulse_width[21]} {dac_pulse_width[22]} {dac_pulse_width[23]} {dac_pulse_width[24]} {dac_pulse_width[25]} {dac_pulse_width[26]} {dac_pulse_width[27]} {dac_pulse_width[28]} {dac_pulse_width[29]} {dac_pulse_width[30]} {dac_pulse_width[31]}]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe5]
set_property port_width 1 [get_debug_ports u_ila_1/probe5]
connect_debug_port u_ila_1/probe5 [get_nets [list dac_rst]]
create_debug_port u_ila_1 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_1/probe6]
set_property port_width 1 [get_debug_ports u_ila_1/probe6]
connect_debug_port u_ila_1/probe6 [get_nets [list dac_start]]
create_debug_core u_ila_2 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_2]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_2]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_2]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_2]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_2]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_2]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_2]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_2]
set_property port_width 1 [get_debug_ports u_ila_2/clk]
connect_debug_port u_ila_2/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out2]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe0]
set_property port_width 8 [get_debug_ports u_ila_2/probe0]
connect_debug_port u_ila_2/probe0 [get_nets [list {finish_cnt[0]} {finish_cnt[1]} {finish_cnt[2]} {finish_cnt[3]} {finish_cnt[4]} {finish_cnt[5]} {finish_cnt[6]} {finish_cnt[7]}]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe1]
set_property port_width 1 [get_debug_ports u_ila_2/probe1]
connect_debug_port u_ila_2/probe1 [get_nets [list finish_dbg]]
create_debug_port u_ila_2 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe2]
set_property port_width 1 [get_debug_ports u_ila_2/probe2]
connect_debug_port u_ila_2/probe2 [get_nets [list finish_pending]]
set_property C_CLK_INPUT_FREQ_HZ 300000000 [get_debug_cores dbg_hub]
set_property C_ENABLE_CLK_DIVIDER false [get_debug_cores dbg_hub]
set_property C_USER_SCAN_CHAIN 1 [get_debug_cores dbg_hub]
connect_debug_port dbg_hub/clk [get_nets adc_clk]

345
designs/eth_generator/eth_generator.sv Normal file
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`timescale 1 ns / 1 ns
module eth_generator_top #(
parameter int unsigned DAC_DATA_WIDTH = 14
)(
input sys_clk_p,
input sys_clk_n,
input rst_n,
output [3:0] led,
output e_reset,
output e_mdc,
inout e_mdio,
output [3:0] rgmii_txd,
output rgmii_txctl,
output rgmii_txc,
input [3:0] rgmii_rxd,
input rgmii_rxctl,
input rgmii_rxc,
// DAC
output p2_clk,
output p2_wrt,
(* MARK_DEBUG="true" *) output [13:0] p2_data
);
// -------------------------------------------------------------------------
// Internal GMII-side signals
// -------------------------------------------------------------------------
wire [7:0] gmii_txd;
wire gmii_tx_en;
wire gmii_tx_er;
wire gmii_tx_clk;
wire gmii_crs;
wire gmii_col;
wire [7:0] gmii_rxd_i;
wire gmii_rx_dv;
wire gmii_rx_er;
wire gmii_rx_clk;
wire [31:0] pack_total_len;
wire e_rx_dv;
wire [7:0] e_rxd;
wire e_tx_en;
wire [7:0] e_txd;
wire e_rst_n;
wire sys_clk;
wire duplex_mode;
assign duplex_mode = 1'b1;
// -------------------------------------------------------------------------
// System clock buffer (200 MHz differential input)
// -------------------------------------------------------------------------
IBUFDS sys_clk_ibufgds (
.O (sys_clk),
.I (sys_clk_p),
.IB (sys_clk_n)
);
// -------------------------------------------------------------------------
// IDELAYCTRL
// -------------------------------------------------------------------------
(* IODELAY_GROUP = "rgmii_idelay_group" *)
IDELAYCTRL IDELAYCTRL_inst (
.RDY (),
.REFCLK (sys_clk),
.RST (1'b0)
);
// -------------------------------------------------------------------------
// Generated clocks for controller
// Need to create this IP in Vivado:
// input : 200 MHz
// output0: 130 MHz
// output1: 65 MHz
// -------------------------------------------------------------------------
wire dac_clk;
wire adc_clk;
wire clk_wiz_locked;
clk_wiz_ctrl_inst clk_wiz_ctrl_inst (
.clk_in1 (sys_clk),
.reset (~rst_n),
.clk_out1 (dac_clk), // 130 MHz
.clk_out2 (adc_clk), // 65 MHz
.locked (clk_wiz_locked)
);
// -------------------------------------------------------------------------
// GMII <-> RGMII conversion
// -------------------------------------------------------------------------
util_gmii_to_rgmii util_gmii_to_rgmii_m0 (
.reset (1'b0),
.rgmii_td (rgmii_txd),
.rgmii_tx_ctl (rgmii_txctl),
.rgmii_txc (rgmii_txc),
.rgmii_rd (rgmii_rxd),
.rgmii_rx_ctl (rgmii_rxctl),
.gmii_rx_clk (gmii_rx_clk),
.gmii_txd (e_txd),
.gmii_tx_en (e_tx_en),
.gmii_tx_er (1'b0),
.gmii_tx_clk (gmii_tx_clk),
.gmii_crs (gmii_crs),
.gmii_col (gmii_col),
.gmii_rxd (gmii_rxd_i),
.rgmii_rxc (rgmii_rxc),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rx_er (gmii_rx_er),
.speed_selection (2'b10),
.duplex_mode (duplex_mode)
);
// -------------------------------------------------------------------------
// GMII arbitration / adaptation
// -------------------------------------------------------------------------
gmii_arbi arbi_inst (
.clk (gmii_tx_clk),
.rst_n (rst_n),
.speed (2'b10),
.link (1'b1),
.pack_total_len (pack_total_len),
.e_rst_n (e_rst_n),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rxd (gmii_rxd_i),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.e_rx_dv (e_rx_dv),
.e_rxd (e_rxd),
.e_tx_en (e_tx_en),
.e_txd (e_txd)
);
// -------------------------------------------------------------------------
// axis_mac interface
// RX stream from Ethernet goes into controller
// TX stream is unused for now
// -------------------------------------------------------------------------
wire req_ready;
reg send_req;
reg [15:0] data_length;
reg [7:0] s_axis_tx_tdata;
reg s_axis_tx_tvalid;
wire s_axis_tx_tready;
reg s_axis_tx_tlast;
(* MARK_DEBUG="true" *) wire [7:0] m_axis_rx_tdata;
(* MARK_DEBUG="true" *) wire m_axis_rx_tvalid;
(* MARK_DEBUG="true" *) wire m_axis_rx_tlast;
(* MARK_DEBUG="true" *) wire m_axis_rx_tready;
// Always ready to accept RX payload bytes
assign m_axis_rx_tready = 1'b1;
// TX disabled
always @(*) begin
send_req = 1'b0;
data_length = 16'd0;
s_axis_tx_tdata = 8'd0;
s_axis_tx_tvalid= 1'b0;
s_axis_tx_tlast = 1'b0;
end
axis_mac axis_mac0 (
.gmii_tx_clk (gmii_tx_clk),
.gmii_rx_clk (gmii_rx_clk),
.rst_n (e_rst_n),
.gmii_rx_dv (e_rx_dv),
.gmii_rxd (e_rxd),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.send_req (send_req),
.data_length (data_length),
.req_ready (req_ready),
.s_axis_tx_tdata (s_axis_tx_tdata),
.s_axis_tx_tvalid (s_axis_tx_tvalid),
.s_axis_tx_tready (s_axis_tx_tready),
.s_axis_tx_tlast (s_axis_tx_tlast),
.m_axis_rx_tdata (m_axis_rx_tdata),
.m_axis_rx_tvalid (m_axis_rx_tvalid),
.m_axis_rx_tready (m_axis_rx_tready),
.m_axis_rx_tlast (m_axis_rx_tlast)
);
// PHY reset helper from your original example
reset reset_m0 (
.clk (sys_clk),
.key1 (rst_n),
.rst_n (e_reset)
);
// MDIO lines are not driven here yet
assign e_mdc = 1'b0;
assign e_mdio = 1'bz;
// -------------------------------------------------------------------------
// Controller reset
// Use both external reset and clk_wiz lock
// -------------------------------------------------------------------------
wire ctrl_rst_n = rst_n & clk_wiz_locked;
// -------------------------------------------------------------------------
// Debug finish generator (still used here, since generator doesn't have finish signal)
//
// After each adc_start pulse generates one finish pulse after some delay.
// This is just for first bring-up so the controller can leave busy state
// If you don't want this, replace with:
// wire finish_dbg = 1'b0;
// -------------------------------------------------------------------------
(* MARK_DEBUG="true" *) logic finish_dbg;
(* MARK_DEBUG="true" *) logic [7:0] finish_cnt;
(* MARK_DEBUG="true" *) logic finish_pending;
// Controller outputs to debug
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_width;
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_period;
(* MARK_DEBUG="true" *) wire [DAC_DATA_WIDTH-1:0] dac_pulse_height;
(* MARK_DEBUG="true" *) wire [15:0] dac_pulse_num;
(* MARK_DEBUG="true" *) wire [31:0] adc_pulse_period_dbg;
(* MARK_DEBUG="true" *) wire [15:0] adc_pulse_num_dbg;
(* MARK_DEBUG="true" *) wire dac_start;
(* MARK_DEBUG="true" *) wire adc_start_dbg;
(* MARK_DEBUG="true" *) wire dac_rst;
(* MARK_DEBUG="true" *) wire adc_rst_dbg;
always_ff @(posedge adc_clk or negedge ctrl_rst_n) begin
if (!ctrl_rst_n) begin
finish_dbg <= 1'b0;
finish_cnt <= 8'd0;
finish_pending <= 1'b0;
end else begin
finish_dbg <= 1'b0;
if (adc_start_dbg) begin
finish_pending <= 1'b1;
finish_cnt <= 8'd80;
end else if (finish_pending) begin
if (finish_cnt == 8'd0) begin
finish_dbg <= 1'b1;
finish_pending <= 1'b0;
end else begin
finish_cnt <= finish_cnt - 8'd1;
end
end
end
end
// -------------------------------------------------------------------------
// Controller
// ETH domain = gmii_rx_clk, because RX AXI master comes from axis_mac RX side
// -------------------------------------------------------------------------
control #(
.DAC_DATA_WIDTH(DAC_DATA_WIDTH)
) udp_ctrl_inst (
.eth_clk_in (gmii_rx_clk),
.dac_clk_in (dac_clk),
.adc_clk_in (adc_clk),
.rst_n (ctrl_rst_n),
.s_axis_tdata (m_axis_rx_tdata),
.s_axis_tvalid (m_axis_rx_tvalid),
.s_axis_tready (), // controller internally always ready in current version
.s_axis_tlast (m_axis_rx_tlast),
.finish (finish_dbg),
.dac_pulse_width (dac_pulse_width),
.dac_pulse_period (dac_pulse_period),
.dac_pulse_height (dac_pulse_height),
.dac_pulse_num (dac_pulse_num),
.adc_pulse_period (adc_pulse_period_dbg),
.adc_pulse_num (adc_pulse_num_dbg),
.dac_start (dac_start),
.adc_start (adc_start_dbg),
.dac_rst (dac_rst),
.adc_rst (adc_rst_dbg)
);
// -------------------------------------------------------------------------
// DAC
// -------------------------------------------------------------------------
generator #(
.DATA_WIDTH(DAC_DATA_WIDTH)
) generator_inst (
.clk_in(dac_clk),
.rst(dac_rst),
.start(dac_start),
.pulse_width(dac_pulse_width),
.pulse_period(dac_pulse_period),
.pulse_height(dac_pulse_height),
.pulse_num(dac_pulse_num),
.pulse(p2_wrt ),
.pulse_height_out(p2_data)
);
// dac clk mgt
wire p2_clk_oddr;
ODDR #(
.DDR_CLK_EDGE("SAME_EDGE"),
.INIT(1'b0),
.SRTYPE("SYNC")
) ODDR_p2_clk (
.Q (p2_clk_oddr),
.C (dac_clk),
.CE(1'b1),
.D1(1'b1),
.D2(1'b0),
.R (1'b0),
.S (1'b0)
);
OBUF OBUF_p2_clk (
.I(p2_clk_oddr),
.O(p2_clk)
);
//assign p2_wrt = p2_clk;
// -------------------------------------------------------------------------
// Simple LED status
// -------------------------------------------------------------------------
assign led[0] = clk_wiz_locked;
assign led[1] = m_axis_rx_tvalid;
assign led[2] = dac_start;
assign led[3] = adc_rst_dbg;
endmodule

689
designs/eth_generator/ip/clk_wiz_ctrl_inst.xci Normal file
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@ -0,0 +1,689 @@
{
"schema": "xilinx.com:schema:json_instance:1.0",
"ip_inst": {
"xci_name": "clk_wiz_ctrl_inst",
"component_reference": "xilinx.com:ip:clk_wiz:6.0",
"ip_revision": "16",
"gen_directory": "../../../../eth_generator_top.gen/sources_1/ip/clk_wiz_ctrl_inst",
"parameters": {
"component_parameters": {
"Component_Name": [ { "value": "clk_wiz_ctrl_inst", "resolve_type": "user", "usage": "all" } ],
"USER_CLK_FREQ0": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ1": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ2": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ3": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"ENABLE_CLOCK_MONITOR": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OPTIMIZE_CLOCKING_STRUCTURE_EN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK2": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK3": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"REF_CLK_FREQ": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRECISION": [ { "value": "1", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"PRIMTYPE_SEL": [ { "value": "mmcm_adv", "resolve_type": "user", "usage": "all" } ],
"CLOCK_MGR_TYPE": [ { "value": "auto", "resolve_type": "user", "usage": "all" } ],
"USE_FREQ_SYNTH": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_SPREAD_SPECTRUM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_PHASE_ALIGNMENT": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_POWER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_PHASE_SHIFT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_RECONFIG": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"JITTER_SEL": [ { "value": "No_Jitter", "resolve_type": "user", "usage": "all" } ],
"PRIM_IN_FREQ": [ { "value": "200.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "user", "usage": "all" } ],
"PHASESHIFT_MODE": [ { "value": "WAVEFORM", "resolve_type": "user", "usage": "all" } ],
"IN_JITTER_UNITS": [ { "value": "Units_UI", "resolve_type": "user", "usage": "all" } ],
"RELATIVE_INCLK": [ { "value": "REL_PRIMARY", "resolve_type": "user", "usage": "all" } ],
"USE_INCLK_SWITCHOVER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"SECONDARY_IN_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "user", "usage": "all" } ],
"SECONDARY_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"JITTER_OPTIONS": [ { "value": "UI", "resolve_type": "user", "usage": "all" } ],
"CLKIN1_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN1_JITTER_PS": [ { "value": "50.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_USED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_USED": [ { "value": "true", "value_src": "user", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"NUM_OUT_CLKS": [ { "value": "2", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLK_OUT1_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT2_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT3_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT4_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT5_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT6_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT7_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT5_PORT": [ { "value": "clk_out5", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT6_PORT": [ { "value": "clk_out6", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT7_PORT": [ { "value": "clk_out7", "resolve_type": "user", "usage": "all" } ],
"DADDR_PORT": [ { "value": "daddr", "resolve_type": "user", "usage": "all" } ],
"DCLK_PORT": [ { "value": "dclk", "resolve_type": "user", "usage": "all" } ],
"DRDY_PORT": [ { "value": "drdy", "resolve_type": "user", "usage": "all" } ],
"DWE_PORT": [ { "value": "dwe", "resolve_type": "user", "usage": "all" } ],
"DIN_PORT": [ { "value": "din", "resolve_type": "user", "usage": "all" } ],
"DOUT_PORT": [ { "value": "dout", "resolve_type": "user", "usage": "all" } ],
"DEN_PORT": [ { "value": "den", "resolve_type": "user", "usage": "all" } ],
"PSCLK_PORT": [ { "value": "psclk", "resolve_type": "user", "usage": "all" } ],
"PSEN_PORT": [ { "value": "psen", "resolve_type": "user", "usage": "all" } ],
"PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "user", "usage": "all" } ],
"PSDONE_PORT": [ { "value": "psdone", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_REQUESTED_OUT_FREQ": [ { "value": "125", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_OUT_FREQ": [ { "value": "65.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USE_MAX_I_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_O_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIM_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT2_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT3_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT4_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT5_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT6_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT7_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"FEEDBACK_SOURCE": [ { "value": "FDBK_AUTO", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_SIGNALING": [ { "value": "SINGLE", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "user", "usage": "all" } ],
"PLATFORM": [ { "value": "UNKNOWN", "resolve_type": "user", "usage": "all" } ],
"SUMMARY_STRINGS": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_LOCKED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CALC_DONE": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_RESET": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_POWER_DOWN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_STATUS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_FREEZE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLK_VALID": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_INCLK_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLKFB_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"RESET_PORT": [ { "value": "reset", "resolve_type": "user", "usage": "all" } ],
"LOCKED_PORT": [ { "value": "locked", "resolve_type": "user", "usage": "all" } ],
"POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "user", "usage": "all" } ],
"CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "user", "usage": "all" } ],
"STATUS_PORT": [ { "value": "STATUS", "resolve_type": "user", "usage": "all" } ],
"CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "user", "usage": "all" } ],
"INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "user", "usage": "all" } ],
"CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "user", "usage": "all" } ],
"SS_MODE": [ { "value": "CENTER_HIGH", "resolve_type": "user", "usage": "all" } ],
"SS_MOD_FREQ": [ { "value": "250", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SS_MOD_TIME": [ { "value": "0.004", "resolve_type": "user", "format": "float", "usage": "all" } ],
"OVERRIDE_MMCM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"MMCM_DIVCLK_DIVIDE": [ { "value": "4", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"MMCM_CLKFBOUT_MULT_F": [ { "value": "16.875", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKIN1_PERIOD": [ { "value": "5.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKIN2_PERIOD": [ { "value": "10.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_CASCADE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLOCK_HOLD": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "user", "usage": "all" } ],
"MMCM_REF_JITTER1": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_REF_JITTER2": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_STARTUP_WAIT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT0_DIVIDE_F": [ { "value": "6.750", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT1_DIVIDE": [ { "value": "13", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT6_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT6_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OVERRIDE_PLL": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PLL_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"PLL_CLKFBOUT_MULT": [ { "value": "4", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLK_FEEDBACK": [ { "value": "CLKFBOUT", "resolve_type": "user", "usage": "all" } ],
"PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKIN_PERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "user", "usage": "all" } ],
"PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"RESET_TYPE": [ { "value": "ACTIVE_HIGH", "resolve_type": "user", "usage": "all" } ],
"USE_SAFE_CLOCK_STARTUP": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLOCK_SEQUENCING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT2_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT3_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT4_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT5_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT6_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT7_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"USE_BOARD_FLOW": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"AUTO_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"RESET_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CDDC": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "user", "usage": "all" } ],
"CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CLKOUTPHY": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUTPHY_REQUESTED_FREQ": [ { "value": "600.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_JITTER": [ { "value": "162.582", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_PHASE_ERROR": [ { "value": "137.238", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_JITTER": [ { "value": "185.296", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_PHASE_ERROR": [ { "value": "137.238", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"INPUT_MODE": [ { "value": "frequency", "resolve_type": "user", "usage": "all" } ],
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"C_PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "generated", "usage": "all" } ],
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"C_MMCM_CLKOUT1_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
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"C_PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "generated", "usage": "all" } ],
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"C_PLL_CLKIN_PERIOD": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT1_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLOCK_MGR_TYPE": [ { "value": "NA", "resolve_type": "generated", "usage": "all" } ],
"C_OVERRIDE_MMCM": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_OVERRIDE_PLL": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT5_PORT": [ { "value": "clk_out5", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT6_PORT": [ { "value": "clk_out6", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT7_PORT": [ { "value": "clk_out7", "resolve_type": "generated", "usage": "all" } ],
"C_RESET_PORT": [ { "value": "reset", "resolve_type": "generated", "usage": "all" } ],
"C_LOCKED_PORT": [ { "value": "locked", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "generated", "usage": "all" } ],
"C_POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "generated", "usage": "all" } ],
"C_DADDR_PORT": [ { "value": "daddr", "resolve_type": "generated", "usage": "all" } ],
"C_DCLK_PORT": [ { "value": "dclk", "resolve_type": "generated", "usage": "all" } ],
"C_DRDY_PORT": [ { "value": "drdy", "resolve_type": "generated", "usage": "all" } ],
"C_DWE_PORT": [ { "value": "dwe", "resolve_type": "generated", "usage": "all" } ],
"C_DIN_PORT": [ { "value": "din", "resolve_type": "generated", "usage": "all" } ],
"C_DOUT_PORT": [ { "value": "dout", "resolve_type": "generated", "usage": "all" } ],
"C_DEN_PORT": [ { "value": "den", "resolve_type": "generated", "usage": "all" } ],
"C_PSCLK_PORT": [ { "value": "psclk", "resolve_type": "generated", "usage": "all" } ],
"C_PSEN_PORT": [ { "value": "psen", "resolve_type": "generated", "usage": "all" } ],
"C_PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "generated", "usage": "all" } ],
"C_PSDONE_PORT": [ { "value": "psdone", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "generated", "usage": "all" } ],
"C_STATUS_PORT": [ { "value": "STATUS", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "generated", "usage": "all" } ],
"C_INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "generated", "usage": "all" } ],
"C_CLKIN1_JITTER_PS": [ { "value": "50.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "generated", "usage": "all" } ],
"C_SS_MODE": [ { "value": "CENTER_HIGH", "resolve_type": "generated", "usage": "all" } ],
"C_SS_MOD_PERIOD": [ { "value": "4000", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_SS_MOD_TIME": [ { "value": "0.004", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_HAS_CDDC": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "generated", "usage": "all" } ],
"C_CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUTPHY_MODE": [ { "value": "VCO", "resolve_type": "generated", "usage": "all" } ],
"C_ENABLE_CLKOUTPHY": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_INTERFACE_SELECTION": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_S_AXI_ADDR_WIDTH": [ { "value": "11", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_S_AXI_DATA_WIDTH": [ { "value": "32", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_POWER_REG": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVCLK": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_3": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_FILTER_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_FILTER_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE1_AUTO": [ { "value": "1", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE2_AUTO": [ { "value": "1.9259259259259258", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE3_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE4_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE5_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE6_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE7_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV5": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV6": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV7": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_ACTUAL_FREQ": [ { "value": "125.00000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_ACTUAL_FREQ": [ { "value": "64.90385", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_M_MAX": [ { "value": "64.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_M_MIN": [ { "value": "2.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MAX": [ { "value": "80.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MAX": [ { "value": "128.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MIN": [ { "value": "600.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MAX": [ { "value": "1200.000", "resolve_type": "generated", "format": "float", "usage": "all" } ]
},
"project_parameters": {
"ARCHITECTURE": [ { "value": "artix7" } ],
"BASE_BOARD_PART": [ { "value": "" } ],
"BOARD_CONNECTIONS": [ { "value": "" } ],
"DEVICE": [ { "value": "xc7a35t" } ],
"PACKAGE": [ { "value": "fgg484" } ],
"PREFHDL": [ { "value": "VERILOG" } ],
"SILICON_REVISION": [ { "value": "" } ],
"SIMULATOR_LANGUAGE": [ { "value": "MIXED" } ],
"SPEEDGRADE": [ { "value": "-1" } ],
"STATIC_POWER": [ { "value": "" } ],
"TEMPERATURE_GRADE": [ { "value": "" } ]
},
"runtime_parameters": {
"IPCONTEXT": [ { "value": "IP_Flow" } ],
"IPREVISION": [ { "value": "16" } ],
"MANAGED": [ { "value": "TRUE" } ],
"OUTPUTDIR": [ { "value": "../../../../eth_generator_top.gen/sources_1/ip/clk_wiz_ctrl_inst" } ],
"SELECTEDSIMMODEL": [ { "value": "" } ],
"SHAREDDIR": [ { "value": "." } ],
"SWVERSION": [ { "value": "2025.1" } ],
"SYNTHESISFLOW": [ { "value": "OUT_OF_CONTEXT" } ]
}
},
"boundary": {
"ports": {
"reset": [ { "direction": "in", "driver_value": "0" } ],
"clk_in1": [ { "direction": "in" } ],
"clk_out1": [ { "direction": "out" } ],
"clk_out2": [ { "direction": "out" } ],
"locked": [ { "direction": "out" } ]
},
"interfaces": {
"reset": {
"vlnv": "xilinx.com:signal:reset:1.0",
"abstraction_type": "xilinx.com:signal:reset_rtl:1.0",
"mode": "slave",
"parameters": {
"POLARITY": [ { "value": "ACTIVE_HIGH", "value_src": "constant", "usage": "all" } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "RESET_BOARD_INTERFACE", "value_src": "constant", "usage": "all" } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"RST": [ { "physical_name": "reset" } ]
}
},
"clock_CLK_IN1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "slave",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "CLK_IN1_BOARD_INTERFACE", "usage": "all", "is_static_object": false } ]
},
"port_maps": {
"CLK_IN1": [ { "physical_name": "clk_in1" } ]
}
},
"clock_CLK_OUT1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT1": [ { "physical_name": "clk_out1" } ]
}
},
"clock_CLK_OUT2": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT2": [ { "physical_name": "clk_out2" } ]
}
}
}
}
}
}

52
designs/reflectometer/Makefile Normal file
View File

@ -0,0 +1,52 @@
# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = reflectometer_top
FPGA_ARCH = artix7
RTL_DIR = ../../rtl
include ../../scripts/vivado.mk
SYN_FILES += reflectometer.sv
SYN_FILES += $(sort $(shell find ../../rtl -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../../rtl/ethernet-udp/src -type f -name '*.xci'))
XCI_FILES += $(sort $(shell find ip/ -type f -name '*.xci'))
XDC_FILES += ../../constraints/ax7a035b.xdc
XDC_FILES += debug.xdc
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

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# Тестовый проект Generator + ETH + CTRL
Проект состоит из AXIS Ethernet, контроллера и генератора. Позволяет генерировать сигналы, задав параметры через Ethernet.
## Сборка
```make all``` - собрать все до битстрима
```make vivado``` - открыть проект в Vivado
## Управление
Используйте software/console.py. Пример:
```python3 console.py --pulse_width 3_500_000 --pulse_period 20_000_000 --pulse_height 10000 --pulse_num 5500 --dac-bits 14```

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set_clock_groups -name ASYNC_UDP_CTRL -asynchronous -group [get_clocks rgmii_rxc] -group [get_clocks clk_out1_clk_wiz_ctrl_inst] -group [get_clocks clk_out2_clk_wiz_ctrl_inst]

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{
"schema": "xilinx.com:schema:json_instance:1.0",
"ip_inst": {
"xci_name": "clk_wiz_ctrl_inst",
"component_reference": "xilinx.com:ip:clk_wiz:6.0",
"ip_revision": "16",
"gen_directory": "../../../../eth_generator_top.gen/sources_1/ip/clk_wiz_ctrl_inst",
"parameters": {
"component_parameters": {
"Component_Name": [ { "value": "clk_wiz_ctrl_inst", "resolve_type": "user", "usage": "all" } ],
"USER_CLK_FREQ0": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ1": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ2": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USER_CLK_FREQ3": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"ENABLE_CLOCK_MONITOR": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OPTIMIZE_CLOCKING_STRUCTURE_EN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK2": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"ENABLE_USER_CLOCK3": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL0": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"Enable_PLL1": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"REF_CLK_FREQ": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRECISION": [ { "value": "1", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"PRIMTYPE_SEL": [ { "value": "mmcm_adv", "resolve_type": "user", "usage": "all" } ],
"CLOCK_MGR_TYPE": [ { "value": "auto", "resolve_type": "user", "usage": "all" } ],
"USE_FREQ_SYNTH": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_SPREAD_SPECTRUM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_PHASE_ALIGNMENT": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_POWER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_PHASE_SHIFT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_DYN_RECONFIG": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"JITTER_SEL": [ { "value": "No_Jitter", "resolve_type": "user", "usage": "all" } ],
"PRIM_IN_FREQ": [ { "value": "200.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "user", "usage": "all" } ],
"PHASESHIFT_MODE": [ { "value": "WAVEFORM", "resolve_type": "user", "usage": "all" } ],
"IN_JITTER_UNITS": [ { "value": "Units_UI", "resolve_type": "user", "usage": "all" } ],
"RELATIVE_INCLK": [ { "value": "REL_PRIMARY", "resolve_type": "user", "usage": "all" } ],
"USE_INCLK_SWITCHOVER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"SECONDARY_IN_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "user", "usage": "all" } ],
"SECONDARY_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"JITTER_OPTIONS": [ { "value": "UI", "resolve_type": "user", "usage": "all" } ],
"CLKIN1_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_UI_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PRIM_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SECONDARY_IN_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN1_JITTER_PS": [ { "value": "50.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_USED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_USED": [ { "value": "true", "value_src": "user", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_USED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"NUM_OUT_CLKS": [ { "value": "2", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLK_OUT1_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT2_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT3_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT4_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT5_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT6_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_OUT7_USE_FINE_PS_GUI": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT5_PORT": [ { "value": "clk_out5", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT6_PORT": [ { "value": "clk_out6", "resolve_type": "user", "usage": "all" } ],
"CLK_OUT7_PORT": [ { "value": "clk_out7", "resolve_type": "user", "usage": "all" } ],
"DADDR_PORT": [ { "value": "daddr", "resolve_type": "user", "usage": "all" } ],
"DCLK_PORT": [ { "value": "dclk", "resolve_type": "user", "usage": "all" } ],
"DRDY_PORT": [ { "value": "drdy", "resolve_type": "user", "usage": "all" } ],
"DWE_PORT": [ { "value": "dwe", "resolve_type": "user", "usage": "all" } ],
"DIN_PORT": [ { "value": "din", "resolve_type": "user", "usage": "all" } ],
"DOUT_PORT": [ { "value": "dout", "resolve_type": "user", "usage": "all" } ],
"DEN_PORT": [ { "value": "den", "resolve_type": "user", "usage": "all" } ],
"PSCLK_PORT": [ { "value": "psclk", "resolve_type": "user", "usage": "all" } ],
"PSEN_PORT": [ { "value": "psen", "resolve_type": "user", "usage": "all" } ],
"PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "user", "usage": "all" } ],
"PSDONE_PORT": [ { "value": "psdone", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_REQUESTED_OUT_FREQ": [ { "value": "125", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_OUT_FREQ": [ { "value": "65.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"USE_MAX_I_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_MIN_O_JITTER": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PRIM_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "user", "usage": "all" } ],
"CLKOUT1_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT2_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT3_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT4_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT5_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT6_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"CLKOUT7_DRIVES": [ { "value": "BUFG", "resolve_type": "user", "usage": "all" } ],
"FEEDBACK_SOURCE": [ { "value": "FDBK_AUTO", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_SIGNALING": [ { "value": "SINGLE", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "user", "usage": "all" } ],
"CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "user", "usage": "all" } ],
"PLATFORM": [ { "value": "UNKNOWN", "resolve_type": "user", "usage": "all" } ],
"SUMMARY_STRINGS": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_LOCKED": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CALC_DONE": [ { "value": "empty", "resolve_type": "user", "usage": "all" } ],
"USE_RESET": [ { "value": "true", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_POWER_DOWN": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_STATUS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_FREEZE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLK_VALID": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_INCLK_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLKFB_STOPPED": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"RESET_PORT": [ { "value": "reset", "resolve_type": "user", "usage": "all" } ],
"LOCKED_PORT": [ { "value": "locked", "resolve_type": "user", "usage": "all" } ],
"POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "user", "usage": "all" } ],
"CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "user", "usage": "all" } ],
"STATUS_PORT": [ { "value": "STATUS", "resolve_type": "user", "usage": "all" } ],
"CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "user", "usage": "all" } ],
"INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "user", "usage": "all" } ],
"CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "user", "usage": "all" } ],
"SS_MODE": [ { "value": "CENTER_HIGH", "resolve_type": "user", "usage": "all" } ],
"SS_MOD_FREQ": [ { "value": "250", "resolve_type": "user", "format": "float", "usage": "all" } ],
"SS_MOD_TIME": [ { "value": "0.004", "resolve_type": "user", "format": "float", "usage": "all" } ],
"OVERRIDE_MMCM": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"MMCM_DIVCLK_DIVIDE": [ { "value": "4", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"MMCM_CLKFBOUT_MULT_F": [ { "value": "16.875", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKFBOUT_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKIN1_PERIOD": [ { "value": "5.000", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKIN2_PERIOD": [ { "value": "10.0", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_CASCADE": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLOCK_HOLD": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "user", "usage": "all" } ],
"MMCM_REF_JITTER1": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_REF_JITTER2": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_STARTUP_WAIT": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT0_DIVIDE_F": [ { "value": "6.750", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT0_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT1_DIVIDE": [ { "value": "13", "value_src": "user", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT1_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT2_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT3_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT4_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT5_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"MMCM_CLKOUT6_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"MMCM_CLKOUT6_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"MMCM_CLKOUT6_USE_FINE_PS": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"OVERRIDE_PLL": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PLL_NOTES": [ { "value": "None", "resolve_type": "user", "usage": "all" } ],
"PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "user", "usage": "all" } ],
"PLL_CLKFBOUT_MULT": [ { "value": "4", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLK_FEEDBACK": [ { "value": "CLKFBOUT", "resolve_type": "user", "usage": "all" } ],
"PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKIN_PERIOD": [ { "value": "10.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "user", "usage": "all" } ],
"PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT0_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT3_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT4_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"PLL_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "user", "format": "float", "usage": "all" } ],
"PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"RESET_TYPE": [ { "value": "ACTIVE_HIGH", "resolve_type": "user", "usage": "all" } ],
"USE_SAFE_CLOCK_STARTUP": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"USE_CLOCK_SEQUENCING": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUT1_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT2_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT3_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT4_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT5_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT6_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"CLKOUT7_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "user", "format": "long", "usage": "all" } ],
"USE_BOARD_FLOW": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN1_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"DIFF_CLK_IN2_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"AUTO_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "user", "usage": "all" } ],
"RESET_BOARD_INTERFACE": [ { "value": "Custom", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CDDC": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "user", "usage": "all" } ],
"CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "user", "usage": "all" } ],
"ENABLE_CLKOUTPHY": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"CLKOUTPHY_REQUESTED_FREQ": [ { "value": "600.000", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_JITTER": [ { "value": "162.582", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT1_PHASE_ERROR": [ { "value": "137.238", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT2_JITTER": [ { "value": "185.296", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
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"CLKOUT3_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT3_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT4_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT5_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT6_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_JITTER": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"CLKOUT7_PHASE_ERROR": [ { "value": "0.0", "resolve_type": "user", "format": "float", "usage": "all" } ],
"INPUT_MODE": [ { "value": "frequency", "resolve_type": "user", "usage": "all" } ],
"INTERFACE_SELECTION": [ { "value": "Enable_AXI", "resolve_type": "user", "usage": "all" } ],
"AXI_DRP": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ],
"PHASE_DUTY_CONFIG": [ { "value": "false", "resolve_type": "user", "format": "bool", "usage": "all" } ]
},
"model_parameters": {
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"C_USER_CLK_FREQ0": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_AUTO_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "generated", "usage": "all" } ],
"C_USER_CLK_FREQ1": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_USER_CLK_FREQ2": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_USER_CLK_FREQ3": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_ENABLE_CLOCK_MONITOR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_ENABLE_USER_CLOCK0": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_ENABLE_USER_CLOCK1": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_ENABLE_USER_CLOCK2": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_ENABLE_USER_CLOCK3": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_Enable_PLL0": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_Enable_PLL1": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_REF_CLK_FREQ": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRECISION": [ { "value": "1", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT4_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT5_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT6_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT7_USED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT1_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT2_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT3_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKOUT4_BAR": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"c_component_name": [ { "value": "clk_wiz_ctrl_inst", "resolve_type": "generated", "usage": "all" } ],
"C_PLATFORM": [ { "value": "UNKNOWN", "resolve_type": "generated", "usage": "all" } ],
"C_USE_FREQ_SYNTH": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_PHASE_ALIGNMENT": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIM_IN_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_SECONDARY_IN_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_JITTER_SEL": [ { "value": "No_Jitter", "resolve_type": "generated", "usage": "all" } ],
"C_USE_MIN_POWER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_MIN_O_JITTER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_MAX_I_JITTER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_DYN_PHASE_SHIFT": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_OPTIMIZE_CLOCKING_STRUCTURE_EN": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_INCLK_SWITCHOVER": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_DYN_RECONFIG": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_SPREAD_SPECTRUM": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_FAST_SIMULATION": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIMTYPE_SEL": [ { "value": "AUTO", "resolve_type": "generated", "usage": "all" } ],
"C_USE_CLK_VALID": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIM_IN_FREQ": [ { "value": "200.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRIM_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_IN_FREQ_UNITS": [ { "value": "Units_MHz", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_IN_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_SECONDARY_IN_TIMEPERIOD": [ { "value": "10.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_FEEDBACK_SOURCE": [ { "value": "FDBK_AUTO", "resolve_type": "generated", "usage": "all" } ],
"C_PRIM_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "generated", "usage": "all" } ],
"C_PHASESHIFT_MODE": [ { "value": "WAVEFORM", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_SOURCE": [ { "value": "Single_ended_clock_capable_pin", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_SIGNALING": [ { "value": "SINGLE", "resolve_type": "generated", "usage": "all" } ],
"C_USE_RESET": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_RESET_LOW": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_LOCKED": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_INCLK_STOPPED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_CLKFB_STOPPED": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_POWER_DOWN": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_STATUS": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_USE_FREEZE": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_NUM_OUT_CLKS": [ { "value": "2", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CLKOUT1_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT7_DRIVES": [ { "value": "BUFG", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW0": [ { "value": "Input Clock Freq (MHz) Input Jitter (UI)", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW1": [ { "value": "__primary_________200.000____________0.010", "resolve_type": "generated", "usage": "all" } ],
"C_INCLK_SUM_ROW2": [ { "value": "no_secondary_input_clock ", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW0A": [ { "value": " Output Output Phase Duty Cycle Pk-to-Pk Phase", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW0B": [ { "value": " Clock Freq (MHz) (degrees) (%) Jitter (ps) Error (ps)", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW1": [ { "value": "clk_out1__125.00000______0.000______50.0______162.582____137.238", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW2": [ { "value": "clk_out2__64.90385______0.000______50.0______185.296____137.238", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW3": [ { "value": "no_CLK_OUT3_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW4": [ { "value": "no_CLK_OUT4_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW5": [ { "value": "no_CLK_OUT5_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW6": [ { "value": "no_CLK_OUT6_output", "resolve_type": "generated", "usage": "all" } ],
"C_OUTCLK_SUM_ROW7": [ { "value": "no_CLK_OUT7_output", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_OUT_FREQ": [ { "value": "125", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_OUT_FREQ": [ { "value": "65.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT5_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT6_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT7_REQUESTED_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT1_OUT_FREQ": [ { "value": "125.00000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT2_OUT_FREQ": [ { "value": "64.90385", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT3_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLKOUT4_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_CLKOUT7_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_MMCM_NOTES": [ { "value": "None", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "generated", "usage": "all" } ],
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"C_MMCM_CLKIN2_PERIOD": [ { "value": "10.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_MMCM_CLKOUT4_CASCADE": [ { "value": "FALSE", "resolve_type": "generated", "format": "bool", "usage": "all" } ],
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"C_MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "generated", "usage": "all" } ],
"C_MMCM_DIVCLK_DIVIDE": [ { "value": "4", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_MMCM_STARTUP_WAIT": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
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"C_MMCM_CLKFBOUT_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
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"C_MMCM_CLKOUT6_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_NOTES": [ { "value": "No notes", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_BANDWIDTH": [ { "value": "OPTIMIZED", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_CLK_FEEDBACK": [ { "value": "CLKFBOUT", "resolve_type": "generated", "usage": "all" } ],
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"C_PLL_CLKIN_PERIOD": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_COMPENSATION": [ { "value": "SYSTEM_SYNCHRONOUS", "resolve_type": "generated", "usage": "all" } ],
"C_PLL_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PLL_REF_JITTER": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_PLL_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_PLL_CLKFBOUT_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT0_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PLL_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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"C_PLL_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_CLOCK_MGR_TYPE": [ { "value": "NA", "resolve_type": "generated", "usage": "all" } ],
"C_OVERRIDE_MMCM": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_OVERRIDE_PLL": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_PRIMARY_PORT": [ { "value": "clk_in1", "resolve_type": "generated", "usage": "all" } ],
"C_SECONDARY_PORT": [ { "value": "clk_in2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT1_PORT": [ { "value": "clk_out1", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT2_PORT": [ { "value": "clk_out2", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT3_PORT": [ { "value": "clk_out3", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_OUT4_PORT": [ { "value": "clk_out4", "resolve_type": "generated", "usage": "all" } ],
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"C_RESET_PORT": [ { "value": "reset", "resolve_type": "generated", "usage": "all" } ],
"C_LOCKED_PORT": [ { "value": "locked", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_PORT": [ { "value": "clkfb_in", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_P_PORT": [ { "value": "clkfb_in_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_IN_N_PORT": [ { "value": "clkfb_in_n", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_PORT": [ { "value": "clkfb_out", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_P_PORT": [ { "value": "clkfb_out_p", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_OUT_N_PORT": [ { "value": "clkfb_out_n", "resolve_type": "generated", "usage": "all" } ],
"C_POWER_DOWN_PORT": [ { "value": "power_down", "resolve_type": "generated", "usage": "all" } ],
"C_DADDR_PORT": [ { "value": "daddr", "resolve_type": "generated", "usage": "all" } ],
"C_DCLK_PORT": [ { "value": "dclk", "resolve_type": "generated", "usage": "all" } ],
"C_DRDY_PORT": [ { "value": "drdy", "resolve_type": "generated", "usage": "all" } ],
"C_DWE_PORT": [ { "value": "dwe", "resolve_type": "generated", "usage": "all" } ],
"C_DIN_PORT": [ { "value": "din", "resolve_type": "generated", "usage": "all" } ],
"C_DOUT_PORT": [ { "value": "dout", "resolve_type": "generated", "usage": "all" } ],
"C_DEN_PORT": [ { "value": "den", "resolve_type": "generated", "usage": "all" } ],
"C_PSCLK_PORT": [ { "value": "psclk", "resolve_type": "generated", "usage": "all" } ],
"C_PSEN_PORT": [ { "value": "psen", "resolve_type": "generated", "usage": "all" } ],
"C_PSINCDEC_PORT": [ { "value": "psincdec", "resolve_type": "generated", "usage": "all" } ],
"C_PSDONE_PORT": [ { "value": "psdone", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_VALID_PORT": [ { "value": "CLK_VALID", "resolve_type": "generated", "usage": "all" } ],
"C_STATUS_PORT": [ { "value": "STATUS", "resolve_type": "generated", "usage": "all" } ],
"C_CLK_IN_SEL_PORT": [ { "value": "clk_in_sel", "resolve_type": "generated", "usage": "all" } ],
"C_INPUT_CLK_STOPPED_PORT": [ { "value": "input_clk_stopped", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFB_STOPPED_PORT": [ { "value": "clkfb_stopped", "resolve_type": "generated", "usage": "all" } ],
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"C_CLKIN2_JITTER_PS": [ { "value": "100.0", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_PRIMITIVE": [ { "value": "MMCM", "resolve_type": "generated", "usage": "all" } ],
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"C_HAS_CDDC": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_CDDCDONE_PORT": [ { "value": "cddcdone", "resolve_type": "generated", "usage": "all" } ],
"C_CDDCREQ_PORT": [ { "value": "cddcreq", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUTPHY_MODE": [ { "value": "VCO", "resolve_type": "generated", "usage": "all" } ],
"C_ENABLE_CLKOUTPHY": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_INTERFACE_SELECTION": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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"C_S_AXI_DATA_WIDTH": [ { "value": "32", "resolve_type": "generated", "format": "long", "usage": "all" } ],
"C_POWER_REG": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
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"C_CLKOUT3_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
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"C_CLKOUT5_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKFBOUT_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVCLK": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_1": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_LOCK_3": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
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"C_FILTER_2": [ { "value": "0000", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE1_AUTO": [ { "value": "1", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE2_AUTO": [ { "value": "1.9259259259259258", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE3_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE4_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE5_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE6_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_DIVIDE7_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_PLLBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV1": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV2": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV3": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV4": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV5": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV6": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_MMCMBUFGCEDIV7": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT7_MATCHED_ROUTING": [ { "value": "false", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT0_ACTUAL_FREQ": [ { "value": "125.00000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT1_ACTUAL_FREQ": [ { "value": "64.90385", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT2_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT3_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT4_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT5_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_CLKOUT6_ACTUAL_FREQ": [ { "value": "100.000", "resolve_type": "generated", "usage": "all" } ],
"C_M_MAX": [ { "value": "64.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_M_MIN": [ { "value": "2.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MAX": [ { "value": "80.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_D_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MAX": [ { "value": "128.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_O_MIN": [ { "value": "1.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MIN": [ { "value": "600.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
"C_VCO_MAX": [ { "value": "1200.000", "resolve_type": "generated", "format": "float", "usage": "all" } ]
},
"project_parameters": {
"ARCHITECTURE": [ { "value": "artix7" } ],
"BASE_BOARD_PART": [ { "value": "" } ],
"BOARD_CONNECTIONS": [ { "value": "" } ],
"DEVICE": [ { "value": "xc7a35t" } ],
"PACKAGE": [ { "value": "fgg484" } ],
"PREFHDL": [ { "value": "VERILOG" } ],
"SILICON_REVISION": [ { "value": "" } ],
"SIMULATOR_LANGUAGE": [ { "value": "MIXED" } ],
"SPEEDGRADE": [ { "value": "-1" } ],
"STATIC_POWER": [ { "value": "" } ],
"TEMPERATURE_GRADE": [ { "value": "" } ]
},
"runtime_parameters": {
"IPCONTEXT": [ { "value": "IP_Flow" } ],
"IPREVISION": [ { "value": "16" } ],
"MANAGED": [ { "value": "TRUE" } ],
"OUTPUTDIR": [ { "value": "../../../../eth_generator_top.gen/sources_1/ip/clk_wiz_ctrl_inst" } ],
"SELECTEDSIMMODEL": [ { "value": "" } ],
"SHAREDDIR": [ { "value": "." } ],
"SWVERSION": [ { "value": "2025.1" } ],
"SYNTHESISFLOW": [ { "value": "OUT_OF_CONTEXT" } ]
}
},
"boundary": {
"ports": {
"reset": [ { "direction": "in", "driver_value": "0" } ],
"clk_in1": [ { "direction": "in" } ],
"clk_out1": [ { "direction": "out" } ],
"clk_out2": [ { "direction": "out" } ],
"locked": [ { "direction": "out" } ]
},
"interfaces": {
"reset": {
"vlnv": "xilinx.com:signal:reset:1.0",
"abstraction_type": "xilinx.com:signal:reset_rtl:1.0",
"mode": "slave",
"parameters": {
"POLARITY": [ { "value": "ACTIVE_HIGH", "value_src": "constant", "usage": "all" } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "RESET_BOARD_INTERFACE", "value_src": "constant", "usage": "all" } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"RST": [ { "physical_name": "reset" } ]
}
},
"clock_CLK_IN1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "slave",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ],
"BOARD.ASSOCIATED_PARAM": [ { "value": "CLK_IN1_BOARD_INTERFACE", "usage": "all", "is_static_object": false } ]
},
"port_maps": {
"CLK_IN1": [ { "physical_name": "clk_in1" } ]
}
},
"clock_CLK_OUT1": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT1": [ { "physical_name": "clk_out1" } ]
}
},
"clock_CLK_OUT2": {
"vlnv": "xilinx.com:signal:clock:1.0",
"abstraction_type": "xilinx.com:signal:clock_rtl:1.0",
"mode": "master",
"parameters": {
"FREQ_HZ": [ { "value": "100000000", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"FREQ_TOLERANCE_HZ": [ { "value": "0", "resolve_type": "generated", "format": "long", "is_ips_inferred": true, "is_static_object": false } ],
"PHASE": [ { "value": "0.0", "resolve_type": "generated", "format": "float", "is_ips_inferred": true, "is_static_object": false } ],
"CLK_DOMAIN": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_BUSIF": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_PORT": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"ASSOCIATED_RESET": [ { "value": "", "resolve_type": "generated", "is_ips_inferred": true, "is_static_object": false } ],
"INSERT_VIP": [ { "value": "0", "resolve_type": "user", "format": "long", "usage": "simulation.rtl", "is_ips_inferred": true, "is_static_object": false } ]
},
"port_maps": {
"CLK_OUT2": [ { "physical_name": "clk_out2" } ]
}
}
}
}
}
}

393
designs/reflectometer/reflectometer.sv Normal file
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`timescale 1 ns / 1 ns
module reflectometer_top #(
parameter int unsigned DAC_DATA_WIDTH = 14,
parameter int unsigned ADC_DATA_WIDTH = 12,
parameter PACK_FACTOR = 1,
parameter PROCESS_MODE = 0,
parameter ACCUM_WIDTH = 32,
parameter N_MAX = 4096,
parameter WINDOW_SIZE = 65,
parameter PACKET_SIZE = 1024
)(
input sys_clk_p,
input sys_clk_n,
input rst_n,
output [3:0] led,
output e_reset,
output e_mdc,
inout e_mdio,
output [3:0] rgmii_txd,
output rgmii_txctl,
output rgmii_txc,
input [3:0] rgmii_rxd,
input rgmii_rxctl,
input rgmii_rxc,
// DAC
(* MARK_DEBUG="true" *) output debug_dac
// ADC
input [ADC_DATA_WIDTH-1:0] adc_data_in;
input adc_out_of_range;
);
// temp
wire p2_clk;
wire p2_wrt;
(* MARK_DEBUG="true" *) wire [13:0] p2_data;
assign debug_dac = p2_data[13];
// -------------------------------------------------------------------------
// Internal GMII-side signals
// -------------------------------------------------------------------------
wire [7:0] gmii_txd;
wire gmii_tx_en;
wire gmii_tx_er;
wire gmii_tx_clk;
wire gmii_crs;
wire gmii_col;
wire [7:0] gmii_rxd_i;
wire gmii_rx_dv;
wire gmii_rx_er;
wire gmii_rx_clk;
wire [31:0] pack_total_len;
wire e_rx_dv;
wire [7:0] e_rxd;
wire e_tx_en;
wire [7:0] e_txd;
wire e_rst_n;
wire sys_clk;
wire duplex_mode;
assign duplex_mode = 1'b1;
// -------------------------------------------------------------------------
// System clock buffer (200 MHz differential input)
// -------------------------------------------------------------------------
IBUFDS sys_clk_ibufgds (
.O (sys_clk),
.I (sys_clk_p),
.IB (sys_clk_n)
);
// -------------------------------------------------------------------------
// IDELAYCTRL
// -------------------------------------------------------------------------
(* IODELAY_GROUP = "rgmii_idelay_group" *)
IDELAYCTRL IDELAYCTRL_inst (
.RDY (),
.REFCLK (sys_clk),
.RST (1'b0)
);
// -------------------------------------------------------------------------
// Generated clocks for controller
// Need to create this IP in Vivado:
// input : 200 MHz
// output0: 130 MHz
// output1: 65 MHz
// -------------------------------------------------------------------------
wire dac_clk;
wire adc_clk;
wire clk_wiz_locked;
clk_wiz_ctrl_inst clk_wiz_ctrl_inst (
.clk_in1 (sys_clk),
.reset (~rst_n),
.clk_out1 (dac_clk), // 130 MHz
.clk_out2 (adc_clk), // 65 MHz
.locked (clk_wiz_locked)
);
// -------------------------------------------------------------------------
// GMII <-> RGMII conversion
// -------------------------------------------------------------------------
util_gmii_to_rgmii util_gmii_to_rgmii_m0 (
.reset (1'b0),
.rgmii_td (rgmii_txd),
.rgmii_tx_ctl (rgmii_txctl),
.rgmii_txc (rgmii_txc),
.rgmii_rd (rgmii_rxd),
.rgmii_rx_ctl (rgmii_rxctl),
.gmii_rx_clk (gmii_rx_clk),
.gmii_txd (e_txd),
.gmii_tx_en (e_tx_en),
.gmii_tx_er (1'b0),
.gmii_tx_clk (gmii_tx_clk),
.gmii_crs (gmii_crs),
.gmii_col (gmii_col),
.gmii_rxd (gmii_rxd_i),
.rgmii_rxc (rgmii_rxc),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rx_er (gmii_rx_er),
.speed_selection (2'b10),
.duplex_mode (duplex_mode)
);
// -------------------------------------------------------------------------
// GMII arbitration / adaptation
// -------------------------------------------------------------------------
gmii_arbi arbi_inst (
.clk (gmii_tx_clk),
.rst_n (rst_n),
.speed (2'b10),
.link (1'b1),
.pack_total_len (pack_total_len),
.e_rst_n (e_rst_n),
.gmii_rx_dv (gmii_rx_dv),
.gmii_rxd (gmii_rxd_i),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.e_rx_dv (e_rx_dv),
.e_rxd (e_rxd),
.e_tx_en (e_tx_en),
.e_txd (e_txd)
);
// -------------------------------------------------------------------------
// axis_mac interface
// RX stream from Ethernet goes into controller
// TX stream is unused for now
// -------------------------------------------------------------------------
wire req_ready;
reg send_req;
reg [15:0] data_length;
reg [7:0] s_axis_tx_tdata;
reg s_axis_tx_tvalid;
wire s_axis_tx_tready;
reg s_axis_tx_tlast;
(* MARK_DEBUG="true" *) wire [7:0] m_axis_rx_tdata;
(* MARK_DEBUG="true" *) wire m_axis_rx_tvalid;
(* MARK_DEBUG="true" *) wire m_axis_rx_tlast;
(* MARK_DEBUG="true" *) wire m_axis_rx_tready;
// Always ready to accept RX payload bytes
assign m_axis_rx_tready = 1'b1;
// TX disabled
always @(*) begin
send_req = 1'b0;
data_length = 16'd0;
s_axis_tx_tdata = 8'd0;
s_axis_tx_tvalid= 1'b0;
s_axis_tx_tlast = 1'b0;
end
axis_mac axis_mac0 (
.gmii_tx_clk (gmii_tx_clk),
.gmii_rx_clk (gmii_rx_clk),
.rst_n (e_rst_n),
.gmii_rx_dv (e_rx_dv),
.gmii_rxd (e_rxd),
.gmii_tx_en (gmii_tx_en),
.gmii_txd (gmii_txd),
.send_req (send_req),
.data_length (data_length),
.req_ready (req_ready),
.s_axis_tx_tdata (s_axis_tx_tdata),
.s_axis_tx_tvalid (s_axis_tx_tvalid),
.s_axis_tx_tready (s_axis_tx_tready),
.s_axis_tx_tlast (s_axis_tx_tlast),
.m_axis_rx_tdata (m_axis_rx_tdata),
.m_axis_rx_tvalid (m_axis_rx_tvalid),
.m_axis_rx_tready (m_axis_rx_tready),
.m_axis_rx_tlast (m_axis_rx_tlast)
);
// PHY reset helper from your original example
reset reset_m0 (
.clk (sys_clk),
.key1 (rst_n),
.rst_n (e_reset)
);
// MDIO lines are not driven here yet
assign e_mdc = 1'b0;
assign e_mdio = 1'bz;
// -------------------------------------------------------------------------
// Controller reset
// Use both external reset and clk_wiz lock
// -------------------------------------------------------------------------
wire ctrl_rst_n = rst_n & clk_wiz_locked;
// -------------------------------------------------------------------------
// Debug finish generator (still used here, since generator doesn't have finish signal)
//
// After each adc_start pulse generates one finish pulse after some delay.
// This is just for first bring-up so the controller can leave busy state
// If you don't want this, replace with:
// wire finish_dbg = 1'b0;
// -------------------------------------------------------------------------
(* MARK_DEBUG="true" *) logic finish;
// Controller outputs to debug
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_width;
(* MARK_DEBUG="true" *) wire [31:0] dac_pulse_period;
(* MARK_DEBUG="true" *) wire [DAC_DATA_WIDTH-1:0] dac_pulse_height;
(* MARK_DEBUG="true" *) wire [15:0] dac_pulse_num;
(* MARK_DEBUG="true" *) wire [31:0] adc_pulse_period;
(* MARK_DEBUG="true" *) wire [15:0] adc_pulse_num;
(* MARK_DEBUG="true" *) wire dac_start;
(* MARK_DEBUG="true" *) wire adc_start;
(* MARK_DEBUG="true" *) wire dac_rst;
(* MARK_DEBUG="true" *) wire adc_rst;
// -------------------------------------------------------------------------
// Controller
// ETH domain = gmii_rx_clk, because RX AXI master comes from axis_mac RX side
// -------------------------------------------------------------------------
control #(
.DAC_DATA_WIDTH(DAC_DATA_WIDTH)
) udp_ctrl_inst (
.eth_clk_in (gmii_rx_clk),
.dac_clk_in (dac_clk),
.adc_clk_in (adc_clk),
.rst_n (ctrl_rst_n),
.s_axis_tdata (m_axis_rx_tdata),
.s_axis_tvalid (m_axis_rx_tvalid),
.s_axis_tready (), // controller internally always ready in current version
.s_axis_tlast (m_axis_rx_tlast),
.finish (finish),
.dac_pulse_width (dac_pulse_width),
.dac_pulse_period (dac_pulse_period),
.dac_pulse_height (dac_pulse_height),
.dac_pulse_num (dac_pulse_num),
.adc_pulse_period (adc_pulse_period),
.adc_pulse_num (adc_pulse_num),
.dac_start (dac_start),
.adc_start (adc_start),
.dac_rst (dac_rst),
.adc_rst (adc_rst)
);
// -------------------------------------------------------------------------
// DAC
// -------------------------------------------------------------------------
generator #(
.DATA_WIDTH(DAC_DATA_WIDTH)
) generator_inst (
.clk_in(dac_clk),
.rst(dac_rst),
.start(dac_start),
.pulse_width(dac_pulse_width),
.pulse_period(dac_pulse_period),
.pulse_height(dac_pulse_height),
.pulse_num(dac_pulse_num),
.pulse(p2_wrt ),
.pulse_height_out(p2_data)
);
// dac clk mgt
wire p2_clk_oddr;
ODDR #(
.DDR_CLK_EDGE("SAME_EDGE"),
.INIT(1'b0),
.SRTYPE("SYNC")
) ODDR_p2_clk (
.Q (p2_clk_oddr),
.C (dac_clk),
.CE(1'b1),
.D1(1'b1),
.D2(1'b0),
.R (1'b0),
.S (1'b0)
);
OBUF OBUF_p2_clk (
.I(p2_clk_oddr),
.O(p2_clk)
);
// -------------------------------------------------------------------------
// ADC
// -------------------------------------------------------------------------
logic [DATA_WIDTH*PACK_FACTOR-1:0] accum_m_axis_tdata;
logic acum_m_axis_tvalid;
sampler
#(
.DATA_WIDTH(ADC_DATA_WIDTH),
.PACK_FACTOR(PACK_FACTOR),
.PROCESS_MODE(PROCESS_MODE)
)
sampler_dut
(
.clk_in(adc_clk),
.rst(adc_rst),
.data_in(adc_data_in),
.out_of_range(adc_out_of_range),
.m_axis_tdata(accum_m_axis_tdata),
.m_axis_tvalid(acum_m_axis_tvalid)
);
// -------------------------------------------------------------------------
// Accumulator
// -------------------------------------------------------------------------
accumulator_top
#(
.DATA_WIDTH(ADC_DATA_WIDTH),
.ACCUM_WIDTH(ACCUM_WIDTH),
.N_MAX(N_MAX),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
)
accumulator_top_dut
(
.clk_in(adc_clk),
.rst(adc_rst),
.s_axis_tdata(accum_m_axis_tdata),
.s_axis_tvalid(acum_m_axis_tvalid),
.start(adc_start),
.smp_num(adc_pulse_period),
.seq_num(adc_pulse_num),
.eth_clk_in(gmii_rx_clk),
.req_ready(req_ready),
.send_req(send_req),
.m_axis_tdata(m_axis_rx_tdata),
.m_axis_tvalid(m_axis_rx_tvalid),
.m_axis_tready(m_axis_rx_tready),
.m_axis_tlast(m_axis_rx_tlast),
.finish(finish)
);
// -------------------------------------------------------------------------
// Simple LED status
// -------------------------------------------------------------------------
assign led[0] = clk_wiz_locked;
assign led[1] = m_axis_rx_tvalid;
assign led[2] = dac_start;
assign led[3] = debug_dac;
endmodule

39
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# Аккумулятор
Модуль аккумуляции данных для последующего усреднения. Принимает данные с входного потока АХI-Stream фиксированной ширины (задается параметрически), суммируя их сначала по окнам, а затем со значениями из предыдущей последовательности.
## Список парамтеров:
- DATA_WIDTH - ширина входных данных, получаемых с АЦП
- ACCUM_WIDTH - размер данных для аккумуляции, должен быть степенью числа 2. По умолчанию - 32
- N_MAX - максимальное число окон в последовательности. Должно быть степенью числа 2. Влияет на размер используемой памяти.
- WINDOW_SIZE - размер окна усреднения
- PACKET_SIZE - размер выходного пакета
## Иерархия:
```
├── accum_top - полная сборка аккумулятора
│   ├── accum - основная логика аккумуляции по окнам и последовательностям
│   │   ├── adder - модуль сложения по окнам
│   ├── out_axis_fifo - модуль для выдачи данных наружу в другом частотном домене
```
## Список входных портов:
- clk_in - частота входных данных
- rst - сброс всего
- [DATA_WIDTH-1:0] s_axis_tdata - входные данные
- s_axis_tvalid - валидность входных данных
- start - начало аккумуляции
- [31:0] smp_num - число сэмплов (должно быть кратно WINDOW_SIZE)
- [15:0] seq_num - число последовательностей аккумуляции
- eth_clk_in - частота для выходных данных на ethernet
- req_ready - готовность отправителя начать принимать данные
- m_axis_tready - готовность выходного axis
## Список выходных портов:
- send_req - сигнал начала отправки данных
- [7:0] m_axis_tdata - данные выходного axis
- m_axis_tvalid - валидность выходного axis
- m_axis_tlast - последний пакет в axis
- finish - конец отправки всех данных, полный цикл работы завершен
## Логика работы:
Модуль начинает работу при получении сигнала start. Сразу после начала работы можно подавать данные на входной axis, они будут суммироваться по WINDOW_SIZE штук и отправляться на хранение. Так будет сделано для последовательности длиной smp_num чисел, затем начинается новая последовательность - всего таких будет seq_num штук. Каждая последующая последовательность также суммируется по окнам, а затем полученные значения прибавляются к тем же значениям предыдущей последовательности. Таким образом, выполняется суммирование по двум осям, и из исходных данных seq_num по smp_num чисел остается вектор длиной 1 x (smp_num / WINDOW_SIZE). После накопления всех данных начинается выдача. Выдача осуществляется на выходной AXI stream, работающий в домене eth_clk, и имеющий ширину 8 бит - предполагается, что выдача пойдет на ethernet-udp. Когда поднят сигнал req_ready, модуль будет отправлять send_req (запрос отправки пакета), и по готовности m_axis_tready начнет выдавать пакет размер PACKET_SIZE байт. Если данные нельзя ровно разложить по пакетам, то в последнем пакете могут быть отправлены рандомные данные из памяти. После окончания отправки всех пакетов будет поднят сигнал finish.

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`timescale 1ns / 1ps
module accumulator
#(
parameter DATA_WIDTH = 12,
parameter ACCUM_WIDTH = 32,
parameter N_MAX = 4096,
parameter WINDOW_SIZE = 4,
parameter PACKET_SIZE = 8,
parameter READ_BATCH_SIZE =(PACKET_SIZE*8)/(ACCUM_WIDTH)
)
(
input clk_in,
input rst,
input [DATA_WIDTH-1:0] s_axis_tdata,
input s_axis_tvalid,
input start,
input [31:0] smp_num,
input [15:0] seq_num,
output [ACCUM_WIDTH-1:0] out_data,
output out_valid,
output readout_begin,
input batch_req,
input finish
);
logic [31:0] smp_num_reg, cnt_smp_num;
logic [15:0] seq_num_reg, cnt_seq_num;
logic [15:0] cnt_addr, addra, addrb;
logic [ACCUM_WIDTH-1:0] data;
logic valid_data;
logic [ACCUM_WIDTH-1:0] data_bram_in, data_bram_out;
logic wea, enb;
logic readout_begin_reg;
logic [ACCUM_WIDTH-1:0] out_data_reg;
logic out_valid_reg;
logic finish_reg, finish_buf;
// registers for port b data request
reg req_data_b;
reg [15:0] req_addr_b;
typedef enum logic [3:0] {
IDLE,
INIT_MEM,
BEGIN_SEQ,
REQ_WORD_B,
ACCUM,
READOUT_START,
READOUT_AWAIT,
READOUT_DELAY,
READOUT_PUT,
READOUT_LAST,
FINISH
} wr_state_t;
(* MARK_DEBUG="true" *) wr_state_t wr_state;
always @(posedge clk_in) begin
if (rst) begin
smp_num_reg <= '0;
cnt_smp_num <= '0;
seq_num_reg <= '0;
cnt_seq_num <= '0;
cnt_addr <= '0;
wea <= 0;
enb <= 0;
wr_state <= IDLE;
finish_reg <= 0;
out_valid_reg <= 0;
end else begin
finish_buf <= finish;
// FSM
case(wr_state)
IDLE: begin
// wait for start signal
wea <= 0;
enb <= 0;
readout_begin_reg <= 0;
finish_reg <= 0;
out_valid_reg <= 0;
if (start) begin
smp_num_reg <= smp_num;
seq_num_reg <= seq_num;
wr_state <= INIT_MEM;
end
end
INIT_MEM: begin
// first run to initialize memory with first batch of values
wea <= 0;
if (valid_data) begin
data_bram_in <= data;
addra <= cnt_addr;
wea <= 1;
cnt_addr <= cnt_addr + 1;
cnt_smp_num <= cnt_smp_num + WINDOW_SIZE;
end
if (cnt_smp_num >= smp_num_reg) begin
wr_state <= BEGIN_SEQ;
end
end
BEGIN_SEQ: begin
// start new acc seq
wea <= 0;
enb <= 0;
if (cnt_seq_num == seq_num_reg - 1) begin
cnt_seq_num <= '0;
cnt_smp_num <= '0;
cnt_addr <= '0;
wr_state <= READOUT_START;
addrb <= '0;
enb <= 0;
end else begin
// beginning of new data sequence
cnt_seq_num <= cnt_seq_num + 1;
cnt_smp_num <= '0;
cnt_addr <= '0;
wea <= 0;
addrb <= 0;
wr_state <= REQ_WORD_B;
end
end
REQ_WORD_B: begin
// pre-request data for port b
wea <= 0;
enb <= 1;
addrb <= cnt_addr;
wr_state <= ACCUM;
end
ACCUM: begin
// sum mem+input
enb <= 0;
if (valid_data) begin
addra <= cnt_addr;
wea <= 1;
data_bram_in <= data + data_bram_out;
cnt_smp_num <= cnt_smp_num + WINDOW_SIZE;
if (cnt_smp_num + WINDOW_SIZE >= smp_num_reg) begin
wr_state <= BEGIN_SEQ;
end else begin
cnt_addr <= cnt_addr + 1;
wr_state <= REQ_WORD_B;
end
end
end
READOUT_START: begin
readout_begin_reg <= 1'b1;
wr_state <= READOUT_AWAIT;
enb <= 0;
end
READOUT_AWAIT: begin
// req await + delay for every-clock readout.
if (batch_req) begin
enb <= 1;
wr_state <= READOUT_DELAY;
end else if (finish_buf) begin
wr_state <= FINISH;
end else begin
enb <= 0;
out_valid_reg <= 0;
end
end
READOUT_DELAY: begin
// wait for mem latency
addrb <= addrb + 1;
wr_state <= READOUT_PUT;
end
READOUT_PUT: begin
// main data output
if ((addrb % READ_BATCH_SIZE) == 0) begin
wr_state <= READOUT_LAST;
enb <= 0;
end else addrb <= addrb + 1;
out_valid_reg <= 1;
out_data_reg <= data_bram_out;
end
READOUT_LAST: begin
// last word of packet
out_valid_reg <= 0;
out_data_reg <= data_bram_out;
wr_state <= READOUT_START;
end
FINISH: begin
out_valid_reg <= 0;
enb <= 0;
wr_state <= IDLE;
end
default: wr_state <= IDLE;
endcase
end
end
adder
#(
.DATA_WIDTH(DATA_WIDTH),
.WINDOW_SIZE(WINDOW_SIZE),
.ACCUM_WIDTH(ACCUM_WIDTH)
) adder_dut
(
.clk_in(clk_in),
.rst(rst),
.s_axis_tdata(s_axis_tdata),
.s_axis_tvalid(s_axis_tvalid),
.sum_data(data),
.sum_valid(valid_data)
);
xpm_memory_sdpram #(
.ADDR_WIDTH_A(16), // DECIMAL
.ADDR_WIDTH_B(16), // DECIMAL
.AUTO_SLEEP_TIME(0), // DECIMAL
.BYTE_WRITE_WIDTH_A(ACCUM_WIDTH), // DECIMAL
.CASCADE_HEIGHT(0), // DECIMAL
.CLOCKING_MODE("common_clock"), // String
.ECC_MODE("no_ecc"), // String
.MEMORY_INIT_FILE("none"), // String
.MEMORY_INIT_PARAM("0"), // String
.MEMORY_OPTIMIZATION("true"), // String
.MEMORY_PRIMITIVE("auto"), // String
.MEMORY_SIZE(N_MAX*ACCUM_WIDTH), // DECIMAL
.MESSAGE_CONTROL(0), // DECIMAL
.READ_DATA_WIDTH_B(ACCUM_WIDTH), // DECIMAL
.READ_LATENCY_B(1), // DECIMAL
.READ_RESET_VALUE_B("0"), // String
.RST_MODE_A("SYNC"), // String
.RST_MODE_B("SYNC"), // String
.SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_EMBEDDED_CONSTRAINT(0), // DECIMAL
.USE_MEM_INIT(1), // DECIMAL
.USE_MEM_INIT_MMI(0), // DECIMAL
.WAKEUP_TIME("disable_sleep"), // String
.WRITE_DATA_WIDTH_A(ACCUM_WIDTH), // DECIMAL
.WRITE_MODE_B("no_change"), // String
.WRITE_PROTECT(1) // DECIMAL
)
xpm_memory_sdpram_inst (
.doutb(data_bram_out),
.addra(addra),
.addrb(addrb),
.clka(clk_in),
.clkb(clk_in),
.dina(data_bram_in),
.ena(1'b1),
.enb(enb),
.wea(wea)
);
assign readout_begin = readout_begin_reg;
assign out_data = out_data_reg;
assign out_valid = out_valid_reg;
endmodule

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`timescale 1ns / 1ps
module accumulator_top
#(
parameter DATA_WIDTH = 12,
parameter ACCUM_WIDTH = 32,
parameter N_MAX = 4096,
parameter WINDOW_SIZE = 65,
parameter PACKET_SIZE = 1024,
parameter READ_BATCH_SIZE =(PACKET_SIZE*8)/(ACCUM_WIDTH)
)
(
// main clk
input clk_in,
input rst,
// input data
input [DATA_WIDTH-1:0] s_axis_tdata,
input s_axis_tvalid,
// parameters
input start,
input [31:0] smp_num,
input [15:0] seq_num,
// eth signals
input eth_clk_in,
input req_ready,
output send_req,
// output axis
output logic [7:0] m_axis_tdata,
output logic m_axis_tvalid,
input logic m_axis_tready,
output logic m_axis_tlast,
output logic finish
);
wire [ACCUM_WIDTH-1:0] out_data;
wire out_valid;
wire readout_begin;
wire batch_req;
accumulator #(
.DATA_WIDTH(DATA_WIDTH),
.ACCUM_WIDTH(ACCUM_WIDTH),
.N_MAX(N_MAX),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
) accum_main (
.clk_in(clk_in),
.rst(rst),
.s_axis_tdata(s_axis_tdata),
.s_axis_tvalid(s_axis_tvalid),
.start(start),
.smp_num(smp_num),
.seq_num(seq_num),
.out_data(out_data),
.out_valid(out_valid),
.readout_begin(readout_begin),
.batch_req(batch_req),
.finish(finish)
);
out_axis_fifo #(
.ACCUM_WIDTH(ACCUM_WIDTH),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
) output_async_fifo (
.eth_clk_in (eth_clk_in),
.acc_clk_in (clk_in),
.rst (rst),
.smp_num (smp_num),
.m_axis_tdata (m_axis_tdata),
.m_axis_tvalid (m_axis_tvalid),
.m_axis_tready (m_axis_tready),
.m_axis_tlast (m_axis_tlast),
.acc_din (out_data),
.din_valid (out_valid),
.readout_begin (readout_begin),
.req_ready (req_ready),
.send_req (send_req),
.batch_req (batch_req),
.finish (finish)
);
endmodule

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`timescale 1ns / 1ps
module adder
#(
parameter DATA_WIDTH = 12,
parameter WINDOW_SIZE = 4,
parameter ACCUM_WIDTH = 32
)
(
input clk_in,
input rst,
input [DATA_WIDTH-1:0] s_axis_tdata,
input s_axis_tvalid,
output [ACCUM_WIDTH-1:0] sum_data,
output sum_valid
);
logic [ACCUM_WIDTH-1:0] accum, res;
logic [DATA_WIDTH-1:0] axis_data;
logic res_valid, axis_valid;
(* MARK_DEBUG = "TRUE" *) logic [15:0] cnt;
always @(posedge clk_in) begin
if (rst) begin
accum <= '0;
cnt <= '0;
res <= '0;
res_valid <= 0;
end else begin
res_valid <= 0;
axis_data <= s_axis_tdata;
axis_valid <= s_axis_tvalid;
if ( axis_valid) begin
if (cnt == WINDOW_SIZE-1) begin
res <= accum + axis_data;
res_valid <= 1;
accum <= '0;
cnt <= '0;
end else begin
accum <= accum + axis_data;
cnt <= cnt + 1;
end
end
end
end
assign sum_valid = res_valid;
assign sum_data = res;
endmodule

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module out_axis_fifo #(
parameter ACCUM_WIDTH = 32,
parameter WINDOW_SIZE = 65,
parameter PACKET_SIZE = 1024
) (
input logic eth_clk_in,
input logic acc_clk_in,
input logic rst,
input logic [31:0] smp_num,
// AXI stream master for output, eth_clk_in domain
output logic [7:0] m_axis_tdata,
output logic m_axis_tvalid,
input logic m_axis_tready,
output logic m_axis_tlast,
// eth handshake
input logic req_ready,
output logic send_req,
output logic [15:0] udp_data_length,
// data from acc
input logic [ACCUM_WIDTH-1:0] acc_din,
input logic din_valid,
// input pulse
input logic readout_begin,
// output pulses
output logic batch_req,
output logic finish
);
// sync reset
reg [1:0] rst_sync_ff;
reg rst_eth;
always @(posedge acc_clk_in or posedge rst) begin
if (rst) begin
rst_sync_ff <= 2'b11;
end else begin
rst_sync_ff <= {rst_sync_ff[0], 1'b0};
end
end
assign rst_eth = rst_sync_ff[1];
logic [1:0] rst_acc_ff;
logic rst_acc;
always_ff @(posedge acc_clk_in or posedge rst) begin
if (rst)
rst_acc_ff <= 2'b11;
else
rst_acc_ff <= {rst_acc_ff[0], 1'b0};
end
assign rst_acc = rst_acc_ff[1];
// fifo params calc
// round up to be enough for 2xPACKET_SIZE storage
localparam int MIN_BYTES = 2 * PACKET_SIZE;
localparam int MIN_BITS = MIN_BYTES * 8;
localparam int MIN_WR_WORDS = (MIN_BITS + ACCUM_WIDTH - 1) / ACCUM_WIDTH; // ceil div
localparam int WDEPTH_BITS = $clog2(MIN_WR_WORDS);
localparam int FIFO_WDEPTH = 1 << WDEPTH_BITS;
localparam int FIFO_RDEPTH = FIFO_WDEPTH * ACCUM_WIDTH / 8;
localparam int RDEPTH_BITS = $clog2(FIFO_RDEPTH) + 1;
wire wr_unavail;
wire wr_rst_busy;
reg rd_en;
typedef enum logic [2:0] {
WR_IDLE = 3'd0,
WR_CHECK = 3'd1,
WR_RUN = 3'd2,
WR_END = 3'd3
} wr_state_t;
(* MARK_DEBUG="true" *) wr_state_t wr_state;
// Write FSM
reg [31:0] wr_cnt; // current BIT mem ptr
reg [31:0] wr_batch_tgt; // next 'target' that should be written from batch
reg [31:0] wr_total; // total BITS to be sent!
wire empty;
wire [WDEPTH_BITS:0] wr_data_count;
// NOTE:
// each written "acc_din" ACCUM_WIDTH word
// is counted as WINDOWS_SIZE samples actually
// because hw division for counters is painful
// so we just increased the counter sizes
always_ff @(posedge acc_clk_in) begin
if (rst_acc) begin
wr_state <= WR_IDLE;
wr_cnt <= 32'b0;
wr_batch_tgt <= 32'b0;
wr_total <= 32'b0;
batch_req <= 0;
finish <= 0;
end else begin
case (wr_state)
// wait until readout is requested
WR_IDLE: begin
if (readout_begin) begin
wr_cnt <= 32'b0;
wr_state <= WR_CHECK;
wr_total <= smp_num * ACCUM_WIDTH;
wr_batch_tgt <= 32'b0;
batch_req <= 0;
finish <= 0;
end
end
// wait until we can request a word
// depends on prog_full signal
WR_CHECK: begin
if ((wr_data_count < (FIFO_WDEPTH - (PACKET_SIZE / (ACCUM_WIDTH / 8)))) && ~wr_rst_busy) begin
batch_req <= 1;
// should give us exactly PACKET_SIZE * 8 bits
// multiplied by WINDOW_SIZE, because we count
// each given ACCUM_WIDTH word as WINDOWS_SIZE samples !!!
wr_batch_tgt <= wr_batch_tgt + (8 * WINDOW_SIZE * PACKET_SIZE);
wr_state <= WR_RUN;
end else begin
batch_req <= 0;
end
end
// wait until all requested packet is written
WR_RUN: begin
batch_req <= 0;
if (wr_cnt == wr_batch_tgt) begin
// got enough words
wr_state <= WR_END;
end else if (wr_cnt > wr_batch_tgt) begin
// weird case when accum gave us too much words
// block resets
wr_cnt <= 32'hffffffff; // sort of signal for sim/ila
wr_state <= WR_END;
end
if (din_valid) begin
// data supplied
// count as we got WINDOW_SIZE samples
wr_cnt <= wr_cnt + ACCUM_WIDTH * WINDOW_SIZE;
end
end
// check if this was last data batch
WR_END: begin
// here we check that we sent enough data
// wr_cnt should be by design PACKET_SIZE-aligned
if (wr_cnt >= wr_total) begin
// wait until all data is sent
if (empty) begin
finish <= 1;
wr_state <= WR_IDLE;
end
end else begin
// next word
wr_state <= WR_CHECK;
end
end
endcase
end
end
// Readout FSM with ethernet request
assign udp_data_length = PACKET_SIZE; // fixed packet size
reg [15:0] sent_cnt;
typedef enum logic [2:0] {
RD_IDLE = 3'd0,
RD_CHECK = 3'd1,
RD_SEND = 3'd2
} rd_state_t;
(* MARK_DEBUG="true" *) rd_state_t rd_state;
wire rd_valid;
wire [RDEPTH_BITS-1:0] rd_data_count;
always_ff @(posedge eth_clk_in) begin
if (rst_eth) begin
rd_state <= RD_IDLE;
send_req <= 1'b0;
sent_cnt <= 16'd0;
m_axis_tlast <= 1'b0;
m_axis_tvalid <= 1'b0;
rd_en <= 1'b0;
end else begin
case (rd_state)
// wait until fifo has enough data to send
RD_IDLE: begin
if (rd_data_count == PACKET_SIZE) begin
// enough data to send packet, begin
rd_state <= RD_CHECK;
end
send_req <= 1'b0;
sent_cnt <= 16'd0;
rd_en <= 1'b0;
m_axis_tlast <= 1'b0;
m_axis_tvalid <= 1'b0;
end
// await udp ready
RD_CHECK: begin
if (req_ready) begin
send_req <= 1'b1;
rd_state <= RD_SEND;
end
end
// send data
RD_SEND: begin
// udp is ready and fifo is ready = sent
send_req <= 1'b0;
if (m_axis_tready && rd_valid) begin
rd_en <= 1'b1;
m_axis_tvalid <= 1'b1;
sent_cnt <= sent_cnt + 1;
// final packet of the batch
if (sent_cnt == PACKET_SIZE - 1) begin
rd_state <= RD_IDLE;
m_axis_tlast <= 1'b1;
end
end else begin
rd_en <= 1'b0;
m_axis_tvalid <= 1'b0;
end
end
endcase
end
end
logic [ACCUM_WIDTH-1:0] fifo_din_r, acc_din_reg, din_valid_reg;
logic fifo_wr_en_r;
always_ff @(posedge acc_clk_in) begin
if (rst_acc) begin
fifo_din_r <= '0;
fifo_wr_en_r <= 1'b0;
din_valid_reg <= 1'b0;
end else begin
fifo_wr_en_r <= 1'b0;
acc_din_reg <= acc_din;
if (!wr_rst_busy && din_valid_reg) begin
fifo_din_r <= acc_din_reg;
fifo_wr_en_r <= 1'b1;
end
din_valid_reg <= din_valid;
end
end
// xpm_fifo_async: Asynchronous FIFO
// Xilinx Parameterized Macro, version 2025.1
xpm_fifo_async #(
.DOUT_RESET_VALUE("0"), // String
.FIFO_READ_LATENCY(1), // DECIMAL
.FIFO_WRITE_DEPTH(FIFO_WDEPTH),
.FULL_RESET_VALUE(0),
.PROG_EMPTY_THRESH(PACKET_SIZE),
.PROG_FULL_THRESH(PACKET_SIZE / (ACCUM_WIDTH / 8)),
.RD_DATA_COUNT_WIDTH(RDEPTH_BITS),
.READ_DATA_WIDTH(8), // always 8 bit for eth
.READ_MODE("fwft"),
.SIM_ASSERT_CHK(1), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_ADV_FEATURES("1616"), // String
.WRITE_DATA_WIDTH(ACCUM_WIDTH),
.WR_DATA_COUNT_WIDTH(WDEPTH_BITS+1)
)
xpm_fifo_async_inst (
.data_valid(rd_valid), // 1-bit output: Read Data Valid: When asserted, this signal indicates that valid data is available on the
// output bus (dout).
.dout(m_axis_tdata),
.empty(empty),
.full( ),
.prog_full(wr_unavail), // 1-bit output: Programmable Full: This signal is asserted when the number of words in the FIFO is greater than
// or equal to the programmable full threshold value. It is de-asserted when the number of words in the FIFO is
// less than the programmable full threshold value.
.rd_data_count(rd_data_count), // RD_DATA_COUNT_WIDTH-bit output: Read Data Count: This bus indicates the number of words read from the FIFO.
.wr_data_count(wr_data_count), // WR_DATA_COUNT_WIDTH-bit output: Write Data Count: This bus indicates the number of words written into the
// FIFO.
.rd_clk(eth_clk_in), // 1-bit input: Read clock: Used for read operation. rd_clk must be a free running clock.
.rd_en(rd_en), // 1-bit input: Read Enable: If the FIFO is not empty, asserting this signal causes data (on dout) to be read
// from the FIFO. Must be held active-low when rd_rst_busy is active high.
.rst(rst),
.din(fifo_din_r), // WRITE_DATA_WIDTH-bit input: Write Data: The input data bus used when writing the FIFO.
.wr_clk(acc_clk_in), // 1-bit input: Write clock: Used for write operation. wr_clk must be a free running clock.
.wr_en(fifo_wr_en_r),
.wr_rst_busy(wr_rst_busy)
);
endmodule

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# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = accumulator_top
FPGA_ARCH = artix7
RTL_DIR = ../src
include ../../../scripts/vivado.mk
SYN_FILES += $(sort $(shell find ../src -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../src -type f -name '*.xci'))
XDC_FILES += ../../../constraints/ax7a035b.xdc
XDC_FILES += test_timing.xdc
SYN_FILES += out_axis_fifo_tb.sv
SYN_FILES += accum_full_tb.sv
SIM_TOP = tb_accumulator_top
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

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`timescale 1ns / 1ps
module tb_accumulator_top;
localparam DATA_WIDTH = 12;
localparam ACCUM_WIDTH = 32;
localparam N_MAX = 4096;
localparam WINDOW_SIZE = 65;
localparam PACKET_SIZE = 1024;
localparam READ_BATCH_SIZE = (PACKET_SIZE*8)/ACCUM_WIDTH;
localparam MAX_WORDS = N_MAX;
localparam MAX_SEQ_NUM = 64;
logic clk_in;
logic eth_clk_in;
logic rst;
logic [DATA_WIDTH-1:0] s_axis_tdata;
logic s_axis_tvalid;
logic start;
logic [31:0] smp_num;
logic [15:0] seq_num;
logic req_ready;
wire send_req;
wire [7:0] m_axis_tdata;
wire m_axis_tvalid;
logic m_axis_tready;
wire m_axis_tlast;
wire finish;
integer seed;
integer total_errors;
integer tests_total;
integer tests_failed;
integer tests_passed;
integer packets_seen;
integer current_packet_byte_count;
integer total_words_captured;
byte packet_bytes [0:PACKET_SIZE-1];
logic [ACCUM_WIDTH-1:0] expected_words [0:MAX_WORDS-1];
logic [ACCUM_WIDTH-1:0] captured_words_le[0:MAX_WORDS-1];
logic [ACCUM_WIDTH-1:0] captured_words_be[0:MAX_WORDS-1];
accumulator_top #(
.DATA_WIDTH(DATA_WIDTH),
.ACCUM_WIDTH(ACCUM_WIDTH),
.N_MAX(N_MAX),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
) dut (
.clk_in(clk_in),
.rst(rst),
.s_axis_tdata(s_axis_tdata),
.s_axis_tvalid(s_axis_tvalid),
.start(start),
.smp_num(smp_num),
.seq_num(seq_num),
.eth_clk_in(eth_clk_in),
.req_ready(req_ready),
.send_req(send_req),
.m_axis_tdata(m_axis_tdata),
.m_axis_tvalid(m_axis_tvalid),
.m_axis_tready(m_axis_tready),
.m_axis_tlast(m_axis_tlast),
.finish(finish)
);
initial begin
clk_in = 1'b0;
forever #5 clk_in = ~clk_in;
end
initial begin
eth_clk_in = 1'b0;
forever #4 eth_clk_in = ~eth_clk_in;
end
task automatic clear_scoreboard;
integer i;
begin
packets_seen = 0;
current_packet_byte_count = 0;
total_words_captured = 0;
for (i = 0; i < MAX_WORDS; i = i + 1) begin
expected_words[i] = '0;
captured_words_le[i] = '0;
captured_words_be[i] = '0;
end
for (i = 0; i < PACKET_SIZE; i = i + 1)
packet_bytes[i] = 8'h00;
end
endtask
task automatic reset_dut;
begin
rst = 1'b1;
start = 1'b0;
s_axis_tdata = '0;
s_axis_tvalid = 1'b0;
smp_num = '0;
seq_num = '0;
req_ready = 1'b0;
m_axis_tready = 1'b1;
clear_scoreboard();
repeat(12) @(posedge clk_in);
rst = 1'b0;
repeat(8) @(posedge clk_in);
end
endtask
task automatic pulse_start;
begin
@(posedge clk_in);
start <= 1'b1;
@(posedge clk_in);
start <= 1'b0;
end
endtask
task automatic send_one_sample(input logic [DATA_WIDTH-1:0] val);
begin
@(posedge clk_in);
s_axis_tdata <= val;
s_axis_tvalid <= 1'b1;
end
endtask
task automatic stop_stream;
begin
@(posedge clk_in);
s_axis_tdata <= '0;
s_axis_tvalid <= 1'b0;
end
endtask
task automatic run_test(
input integer test_id,
input integer seq_num_i,
input integer smp_num_i,
input bit randomize_data,
input integer base_value,
input string test_name
);
logic [DATA_WIDTH-1:0] sample_mem [0:MAX_SEQ_NUM-1][0:(N_MAX*WINDOW_SIZE)-1];
integer seq_idx;
integer sample_idx;
integer word_idx;
integer k;
integer exp_word_count;
integer exp_packet_count;
integer sample_value;
integer local_sum;
integer timeout_cnt;
bit le_ok;
bit be_ok;
integer errors_before;
integer i;
begin
tests_total = tests_total + 1;
errors_before = total_errors;
if (smp_num_i <= 0 || smp_num_i > N_MAX * WINDOW_SIZE || (smp_num_i % WINDOW_SIZE) != 0)
$fatal(1, "[%0s] invalid smp_num=%0d", test_name, smp_num_i);
if (seq_num_i <= 0 || seq_num_i > MAX_SEQ_NUM)
$fatal(1, "[%0s] invalid seq_num=%0d", test_name, seq_num_i);
$display("\n========================================");
$display("TEST %0d: %0s", test_id, test_name);
$display("seq_num=%0d smp_num=%0d randomize=%0d", seq_num_i, smp_num_i, randomize_data);
$display("========================================");
reset_dut();
smp_num = smp_num_i;
seq_num = seq_num_i;
req_ready = 1'b1; // приемник готов заранее
exp_word_count = smp_num_i / WINDOW_SIZE;
exp_packet_count = (exp_word_count + READ_BATCH_SIZE - 1) / READ_BATCH_SIZE;
for (seq_idx = 0; seq_idx < seq_num_i; seq_idx = seq_idx + 1) begin
for (sample_idx = 0; sample_idx < smp_num_i; sample_idx = sample_idx + 1) begin
if (randomize_data)
sample_value = $unsigned($random(seed)) % (1 << DATA_WIDTH);
else
sample_value = (base_value + seq_idx * smp_num_i + sample_idx) % (1 << DATA_WIDTH);
sample_mem[seq_idx][sample_idx] = sample_value[DATA_WIDTH-1:0];
end
end
for (word_idx = 0; word_idx < exp_word_count; word_idx = word_idx + 1) begin
local_sum = 0;
for (seq_idx = 0; seq_idx < seq_num_i; seq_idx = seq_idx + 1) begin
for (k = 0; k < WINDOW_SIZE; k = k + 1)
local_sum = local_sum + sample_mem[seq_idx][word_idx * WINDOW_SIZE + k];
end
expected_words[word_idx] = local_sum[ACCUM_WIDTH-1:0];
$display(" expected[%0d] = %0d (0x%08x)", word_idx, expected_words[word_idx], expected_words[word_idx]);
end
pulse_start();
for (seq_idx = 0; seq_idx < seq_num_i; seq_idx = seq_idx + 1) begin
for (sample_idx = 0; sample_idx < smp_num_i; sample_idx = sample_idx + 1)
send_one_sample(sample_mem[seq_idx][sample_idx]);
stop_stream();
repeat(2) @(posedge clk_in);
end
timeout_cnt = 0;
while (packets_seen < exp_packet_count && timeout_cnt < 50 * PACKET_SIZE) begin
@(posedge eth_clk_in);
timeout_cnt = timeout_cnt + 1;
end
if (packets_seen < exp_packet_count) begin
$display("[%0s] ERROR: timeout waiting packets, got=%0d exp=%0d",
test_name, packets_seen, exp_packet_count);
total_errors = total_errors + 1;
end
timeout_cnt = 0;
while (finish !== 1'b1 && timeout_cnt < 30000) begin
@(posedge clk_in);
timeout_cnt = timeout_cnt + 1;
end
if (finish !== 1'b1) begin
$display("[%0s] ERROR: timeout waiting finish", test_name);
total_errors = total_errors + 1;
end
le_ok = 1'b1;
be_ok = 1'b1;
for (i = 0; i < exp_word_count; i = i + 1) begin
if (captured_words_le[i] !== expected_words[i]) le_ok = 1'b0;
if (captured_words_be[i] !== expected_words[i]) be_ok = 1'b0;
end
if (!le_ok && !be_ok) begin
$display("[%0s] ERROR: payload mismatch", test_name);
for (i = 0; i < exp_word_count; i = i + 1)
$display(" idx=%0d exp=0x%08x le=0x%08x be=0x%08x",
i, expected_words[i], captured_words_le[i], captured_words_be[i]);
total_errors = total_errors + 1;
end else if (le_ok) begin
$display("[%0s] payload check passed in little-endian", test_name);
end else begin
$display("[%0s] payload check passed in big-endian", test_name);
end
if (total_errors == errors_before) begin
tests_passed = tests_passed + 1;
$display("TEST %0d PASSED: %0s", test_id, test_name);
end else begin
tests_failed = tests_failed + 1;
$display("TEST %0d FAILED: %0s", test_id, test_name);
end
req_ready = 1'b0;
repeat(10) @(posedge clk_in);
end
endtask
always @(posedge eth_clk_in) begin : CAPTURE_AXIS
integer idx;
logic [31:0] tmp_le;
logic [31:0] tmp_be;
if (rst) begin
current_packet_byte_count = 0;
end else if (m_axis_tvalid && m_axis_tready) begin
if (current_packet_byte_count < PACKET_SIZE)
packet_bytes[current_packet_byte_count] = m_axis_tdata;
current_packet_byte_count = current_packet_byte_count + 1;
if (m_axis_tlast) begin
packets_seen = packets_seen + 1;
if (current_packet_byte_count != PACKET_SIZE) begin
$display("[packet] ERROR: packet size=%0d expected=%0d", current_packet_byte_count, PACKET_SIZE);
total_errors = total_errors + 1;
end
for (idx = 0; idx < READ_BATCH_SIZE; idx = idx + 1) begin
tmp_le = {
packet_bytes[idx*4 + 3],
packet_bytes[idx*4 + 2],
packet_bytes[idx*4 + 1],
packet_bytes[idx*4 + 0]
};
tmp_be = {
packet_bytes[idx*4 + 0],
packet_bytes[idx*4 + 1],
packet_bytes[idx*4 + 2],
packet_bytes[idx*4 + 3]
};
if (total_words_captured + idx < MAX_WORDS) begin
captured_words_le[total_words_captured + idx] = tmp_le;
captured_words_be[total_words_captured + idx] = tmp_be;
end
end
total_words_captured = total_words_captured + READ_BATCH_SIZE;
current_packet_byte_count = 0;
end
end
end
initial begin
seed = 32'h1badf00d;
total_errors = 0;
tests_total = 0;
tests_failed = 0;
tests_passed = 0;
reset_dut();
run_test(1, 1, 1 * WINDOW_SIZE, 1'b0, 1, "deterministic_small");
// $finish;
run_test(2, 2, 1 * WINDOW_SIZE, 1'b1, 0, "random_seq3_smp8");
run_test(3, 1, 16 * WINDOW_SIZE, 1'b1, 0, "random_seq5_smp16_multi_packet");
run_test(4, 2, 12 * WINDOW_SIZE, 1'b1, 0, "random_seq7_smp12");
run_test(5, 4, 256 * WINDOW_SIZE, 1'b1, 0, "random_max_smpnum");
run_test(6, 2, 1500 * WINDOW_SIZE, 1'b1, 0, "random_max_smpnum2");
$display("\n========================================");
$display("ALL TESTS COMPLETED");
$display("tests_total = %0d", tests_total);
$display("tests_passed = %0d", tests_passed);
$display("tests_failed = %0d", tests_failed);
$display("total_errors = %0d", total_errors);
$display("========================================");
if (total_errors != 0)
$fatal(1, "TB FAILED with %0d error(s)", total_errors);
else
$display("TB PASSED");
$finish;
end
endmodule

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`timescale 1ns / 1ps
module tb_accumulator;
localparam DATA_WIDTH = 12;
localparam ACCUM_WIDTH = 32;
localparam N_MAX = 64;
localparam WINDOW_SIZE = 4;
localparam PACKET_SIZE = 8; // bytes
localparam READ_BATCH_SIZE = (PACKET_SIZE*8)/ACCUM_WIDTH; // = 2
reg clk_in;
reg rst;
reg [DATA_WIDTH-1:0] s_axis_tdata;
reg s_axis_tvalid;
reg start;
reg [31:0] smp_num;
reg [15:0] seq_num;
wire [ACCUM_WIDTH-1:0] out_data;
wire out_valid;
wire readout_begin;
reg batch_req;
reg finish;
integer i;
integer out_count;
reg [ACCUM_WIDTH-1:0] expected [0:READ_BATCH_SIZE-1];
reg [ACCUM_WIDTH-1:0] got [0:READ_BATCH_SIZE-1];
accumulator #(
.DATA_WIDTH(DATA_WIDTH),
.ACCUM_WIDTH(ACCUM_WIDTH),
.N_MAX(N_MAX),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
) dut (
.clk_in(clk_in),
.rst(rst),
.s_axis_tdata(s_axis_tdata),
.s_axis_tvalid(s_axis_tvalid),
.start(start),
.smp_num(smp_num),
.seq_num(seq_num),
.out_data(out_data),
.out_valid(out_valid),
.readout_begin(readout_begin),
.batch_req(batch_req),
.finish(finish)
);
// clock 100 MHz
initial begin
clk_in = 0;
forever #5 clk_in = ~clk_in;
end
// send one sample
task send_sample(input [DATA_WIDTH-1:0] val);
begin
@(posedge clk_in);
s_axis_tdata <= val;
s_axis_tvalid <= 1'b1;
end
endtask
// one idle cycle after valid stream
task end_stream;
begin
@(posedge clk_in);
s_axis_tvalid <= 1'b0;
s_axis_tdata <= '0;
end
endtask
// pulse start
task pulse_start;
begin
@(posedge clk_in);
start <= 1'b1;
@(posedge clk_in);
start <= 1'b0;
end
endtask
// pulse batch request
task pulse_batch_req;
begin
@(posedge clk_in);
batch_req <= 1'b1;
@(posedge clk_in);
batch_req <= 1'b0;
end
endtask
initial begin
repeat(100) @(posedge clk_in);
// init
rst = 1'b1;
s_axis_tdata = '0;
s_axis_tvalid= 1'b0;
start = 1'b0;
smp_num = 32'd8;
seq_num = 16'd2;
batch_req = 1'b0;
finish = 1'b0;
expected[0] = 32'd60;
expected[1] = 32'd92;
repeat(50) @(posedge clk_in);
rst = 1'b0;
repeat(50) @(posedge clk_in);
$display("=== TEST START ===");
pulse_start();
// seq 0: [1..8]
send_sample(12'd1);
send_sample(12'd2);
send_sample(12'd3);
send_sample(12'd4);
send_sample(12'd5);
send_sample(12'd6);
send_sample(12'd7);
send_sample(12'd8);
end_stream();
// небольшой зазор
repeat(5) @(posedge clk_in);
// seq 1: [11..18]
send_sample(12'd11);
send_sample(12'd12);
send_sample(12'd13);
send_sample(12'd14);
send_sample(12'd15);
send_sample(12'd16);
send_sample(12'd17);
send_sample(12'd18);
end_stream();
$display("[%0t] all input data sent, waiting readout_begin...", $time);
wait(readout_begin == 1'b1);
$display("[%0t] readout_begin asserted", $time);
repeat(22) @(posedge clk_in);
pulse_batch_req();
out_count = 0;
// ждём два слова
while (out_count < READ_BATCH_SIZE) begin
@(posedge clk_in);
if (out_valid) begin
got[out_count] = out_data;
$display("[%0t] out_valid: got[%0d] = %0d", $time, out_count, out_data);
out_count = out_count + 1;
end
end
// проверка
for (i = 0; i < READ_BATCH_SIZE; i = i + 1) begin
if (got[i] !== expected[i]) begin
$error("Mismatch at index %0d: got=%0d expected=%0d", i, got[i], expected[i]);
end else begin
$display("OK index %0d: %0d", i, got[i]);
end
end
// завершаем readout
@(posedge clk_in);
finish <= 1'b1;
repeat(10) @(posedge clk_in);
$display("=== TEST PASSED ===");
$finish;
end
endmodule

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`timescale 1ns/1ps
module tb_out_axis_fifo;
localparam int ACCUM_WIDTH = 32;
localparam int WINDOW_SIZE = 65;
localparam int PACKET_SIZE = 8;
localparam int BYTES_PER_WORD = ACCUM_WIDTH / 8;
localparam int WORDS_PER_BATCH = PACKET_SIZE / BYTES_PER_WORD; // 1024 / 4 = 256 слов
logic eth_clk_in;
logic acc_clk_in;
logic rst;
logic [31:0] smp_num;
logic [7:0] m_axis_tdata;
logic m_axis_tvalid;
logic m_axis_tready;
logic m_axis_tlast;
logic [ACCUM_WIDTH-1:0] acc_din;
logic din_valid;
logic send_req;
logic req_ready;
logic readout_begin;
logic batch_req;
logic finish;
out_axis_fifo #(
.ACCUM_WIDTH(ACCUM_WIDTH),
.WINDOW_SIZE(WINDOW_SIZE),
.PACKET_SIZE(PACKET_SIZE)
) dut (
.eth_clk_in (eth_clk_in),
.acc_clk_in (acc_clk_in),
.rst (rst),
.smp_num (smp_num),
.m_axis_tdata (m_axis_tdata),
.m_axis_tvalid (m_axis_tvalid),
.m_axis_tready (m_axis_tready),
.m_axis_tlast (m_axis_tlast),
.acc_din (acc_din),
.din_valid (din_valid),
.readout_begin (readout_begin),
.req_ready (req_ready),
.send_req (send_req),
.batch_req (batch_req),
.finish (finish)
);
// clocks
initial begin
eth_clk_in = 0;
forever #6 eth_clk_in = ~eth_clk_in; // 125
end
initial begin
acc_clk_in = 0;
forever #7.692307692 acc_clk_in = ~acc_clk_in; // 65
end
// scoreboard
byte expected_bytes[$];
int unsigned compared_bytes;
int unsigned mismatch_count;
int unsigned total_pushed_words;
task automatic scoreboard_reset();
begin
expected_bytes.delete();
compared_bytes = 0;
mismatch_count = 0;
total_pushed_words = 0;
end
endtask
task automatic push_expected_word(input logic [ACCUM_WIDTH-1:0] word);
begin
// queue push
expected_bytes.push_back(word[7:0]);
expected_bytes.push_back(word[15:8]);
expected_bytes.push_back(word[23:16]);
expected_bytes.push_back(word[31:24]);
total_pushed_words++;
end
endtask
task automatic check_expected_empty(string case_name);
begin
if (expected_bytes.size() != 0) begin
$error("[%0t] %s: expected_bytes is not empty, remaining=%0d",
$time, case_name, expected_bytes.size());
end else begin
$display("[%0t] %s: scoreboard queue empty, all expected bytes were transmitted",
$time, case_name);
end
end
endtask
// axis check
always_ff @(posedge eth_clk_in or posedge rst) begin
byte exp_byte;
if (rst) begin
compared_bytes <= 0;
mismatch_count <= 0;
end else begin
if (m_axis_tvalid && m_axis_tready) begin
if (expected_bytes.size() == 0) begin
$error("[%0t] AXIS produced unexpected byte 0x%02x: expected queue is empty",
$time, m_axis_tdata);
mismatch_count <= mismatch_count + 1;
end else begin
exp_byte = expected_bytes.pop_front();
compared_bytes <= compared_bytes + 1;
if (m_axis_tdata !== exp_byte) begin
$error("[%0t] AXIS mismatch at byte #%0d: got=0x%02x expected=0x%02x",
$time, compared_bytes, m_axis_tdata, exp_byte);
mismatch_count <= mismatch_count + 1;
end
end
end
end
end
// helpers
task automatic do_reset();
begin
rst = 1'b1;
readout_begin = 1'b0;
din_valid = 1'b0;
acc_din = '0;
smp_num = '0;
scoreboard_reset();
repeat (10) @(posedge acc_clk_in);
rst = 1'b0;
repeat (10) @(posedge acc_clk_in);
end
endtask
task automatic pulse_readout_begin(input logic [31:0] smp_num_i);
begin
smp_num = smp_num_i;
@(posedge acc_clk_in);
readout_begin <= 1'b1;
@(posedge acc_clk_in);
readout_begin <= 1'b0;
end
endtask
task automatic send_random_words(input int unsigned n_words);
int unsigned i;
logic [ACCUM_WIDTH-1:0] rand_word;
begin
for (i = 0; i < n_words; i++) begin
rand_word = $urandom;
@(posedge acc_clk_in);
din_valid <= 1'b1;
acc_din <= rand_word;
// expected result
push_expected_word(rand_word);
end
@(posedge acc_clk_in);
din_valid <= 1'b0;
acc_din <= '0;
end
endtask
// 1. set smp_num
// 2. pulse readout_begon
// 3. send 1KB (PACKET_SIZE) after each batch_req pulse
// 4. wait for finish
// 5. compare axis result
task automatic run_case(input logic [31:0] smp_num_i);
int batch_count;
string case_name;
begin
batch_count = 0;
case_name = $sformatf("run_case(smp_num=%0d)", smp_num_i);
$display("[%0t] %s start", $time, case_name);
pulse_readout_begin(smp_num_i);
while (finish !== 1'b1) begin
@(posedge acc_clk_in);
if (batch_req) begin
batch_count++;
$display("[%0t] %s: batch_req #%0d -> send %0d words",
$time, case_name, batch_count, WORDS_PER_BATCH);
send_random_words(WORDS_PER_BATCH);
end
end
repeat (200) @(posedge eth_clk_in);
$display("[%0t] %s done: batches=%0d, pushed_words=%0d, compared_bytes=%0d, mismatches=%0d, wr_cnt=%0d, wr_total=%0d",
$time, case_name, batch_count, total_pushed_words, compared_bytes, mismatch_count,
dut.wr_cnt, dut.wr_total);
check_expected_empty(case_name);
if (mismatch_count != 0) begin
$fatal(1, "[%0t] %s FAILED: mismatches=%0d", $time, case_name, mismatch_count);
end else begin
$display("[%0t] %s PASSED", $time, case_name);
end
@(posedge acc_clk_in);
end
endtask
// eth beh simulator
int axis_byte_count;
always_ff @(posedge eth_clk_in or posedge rst) begin
if (rst) begin
axis_byte_count <= 0;
req_ready <= 0;
m_axis_tready <= 1'b0;
end else begin
req_ready <= 1;
// request send
if (send_req) begin
m_axis_tready <= 1'b1;
req_ready <= 0;
end
if (m_axis_tvalid && m_axis_tready) begin
axis_byte_count <= axis_byte_count + 1;
end
end
end
// main
initial begin
// init
rst = 1'b0;
readout_begin = 1'b0;
din_valid = 1'b0;
acc_din = '0;
smp_num = '0;
repeat (500) @(posedge acc_clk_in);
// 1
do_reset();
repeat (500) @(posedge acc_clk_in);
run_case(32'd17);
repeat (20) @(posedge acc_clk_in);
// 2
do_reset();
run_case(32'd1024);
repeat (20) @(posedge acc_clk_in);
// 3
do_reset();
run_case(32'd77777);
repeat (20) @(posedge acc_clk_in);
do_reset();
repeat (20) @(posedge acc_clk_in);
$display("[%0t] ALL TESTS DONE", $time);
$finish;
end
endmodule

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<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="tb_accumulator_top_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="tb_accumulator_top" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="0.000000 us"></ZoomStartTime>
<ZoomEndTime time="16.740001 us"></ZoomEndTime>
<Cursor1Time time="6.500000 us"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="556"></NameColumnWidth>
<ValueColumnWidth column_width="111"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="18" />
<wvobject type="logic" fp_name="/tb_accumulator_top/clk_in">
<obj_property name="ElementShortName">clk_in</obj_property>
<obj_property name="ObjectShortName">clk_in</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/eth_clk_in">
<obj_property name="ElementShortName">eth_clk_in</obj_property>
<obj_property name="ObjectShortName">eth_clk_in</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/rst">
<obj_property name="ElementShortName">rst</obj_property>
<obj_property name="ObjectShortName">rst</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/s_axis_tdata">
<obj_property name="ElementShortName">s_axis_tdata[11:0]</obj_property>
<obj_property name="ObjectShortName">s_axis_tdata[11:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/s_axis_tvalid">
<obj_property name="ElementShortName">s_axis_tvalid</obj_property>
<obj_property name="ObjectShortName">s_axis_tvalid</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/start">
<obj_property name="ElementShortName">start</obj_property>
<obj_property name="ObjectShortName">start</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/smp_num">
<obj_property name="ElementShortName">smp_num[31:0]</obj_property>
<obj_property name="ObjectShortName">smp_num[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/seq_num">
<obj_property name="ElementShortName">seq_num[15:0]</obj_property>
<obj_property name="ObjectShortName">seq_num[15:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/req_ready">
<obj_property name="ElementShortName">req_ready</obj_property>
<obj_property name="ObjectShortName">req_ready</obj_property>
<obj_property name="CustomSignalColor">#E0FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/send_req">
<obj_property name="ElementShortName">send_req</obj_property>
<obj_property name="ObjectShortName">send_req</obj_property>
<obj_property name="CustomSignalColor">#E0FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/m_axis_tdata">
<obj_property name="ElementShortName">m_axis_tdata[7:0]</obj_property>
<obj_property name="ObjectShortName">m_axis_tdata[7:0]</obj_property>
<obj_property name="CustomSignalColor">#008080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/m_axis_tready">
<obj_property name="ElementShortName">m_axis_tready</obj_property>
<obj_property name="ObjectShortName">m_axis_tready</obj_property>
<obj_property name="CustomSignalColor">#00FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/m_axis_tlast">
<obj_property name="ElementShortName">m_axis_tlast</obj_property>
<obj_property name="ObjectShortName">m_axis_tlast</obj_property>
<obj_property name="CustomSignalColor">#008080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/finish">
<obj_property name="ElementShortName">finish</obj_property>
<obj_property name="ObjectShortName">finish</obj_property>
<obj_property name="CustomSignalColor">#FAAFBE</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/batch_req">
<obj_property name="ElementShortName">batch_req</obj_property>
<obj_property name="ObjectShortName">batch_req</obj_property>
<obj_property name="CustomSignalColor">#00FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/readout_begin">
<obj_property name="ElementShortName">readout_begin</obj_property>
<obj_property name="ObjectShortName">readout_begin</obj_property>
<obj_property name="CustomSignalColor">#00FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="group" fp_name="group25">
<obj_property name="label">acc</obj_property>
<obj_property name="DisplayName">label</obj_property>
<obj_property name="isExpanded"></obj_property>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/accum_main/PACKET_SIZE">
<obj_property name="ElementShortName">PACKET_SIZE[31:0]</obj_property>
<obj_property name="ObjectShortName">PACKET_SIZE[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/accum_main/READ_BATCH_SIZE">
<obj_property name="ElementShortName">READ_BATCH_SIZE[31:0]</obj_property>
<obj_property name="ObjectShortName">READ_BATCH_SIZE[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/accum_main/addrb">
<obj_property name="ElementShortName">addrb[15:0]</obj_property>
<obj_property name="ObjectShortName">addrb[15:0]</obj_property>
</wvobject>
</wvobject>
<wvobject type="group" fp_name="group27">
<obj_property name="label">fifo</obj_property>
<obj_property name="DisplayName">label</obj_property>
<obj_property name="isExpanded"></obj_property>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/acc_din">
<obj_property name="ElementShortName">acc_din[31:0]</obj_property>
<obj_property name="ObjectShortName">acc_din[31:0]</obj_property>
<obj_property name="CustomSignalColor">#FF0080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/output_async_fifo/din_valid">
<obj_property name="ElementShortName">din_valid</obj_property>
<obj_property name="ObjectShortName">din_valid</obj_property>
<obj_property name="CustomSignalColor">#FF0080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/output_async_fifo/batch_req">
<obj_property name="ElementShortName">batch_req</obj_property>
<obj_property name="ObjectShortName">batch_req</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/wr_state">
<obj_property name="ElementShortName">wr_state[2:0]</obj_property>
<obj_property name="ObjectShortName">wr_state[2:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/rd_state">
<obj_property name="ElementShortName">rd_state[2:0]</obj_property>
<obj_property name="ObjectShortName">rd_state[2:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/output_async_fifo/wr_unavail">
<obj_property name="ElementShortName">wr_unavail</obj_property>
<obj_property name="ObjectShortName">wr_unavail</obj_property>
<obj_property name="CustomSignalColor">#FFFF00</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/output_async_fifo/wr_rst_busy">
<obj_property name="ElementShortName">wr_rst_busy</obj_property>
<obj_property name="ObjectShortName">wr_rst_busy</obj_property>
<obj_property name="CustomSignalColor">#FFFF00</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_accumulator_top/dut/output_async_fifo/xpm_fifo_async_inst/empty">
<obj_property name="ElementShortName">empty</obj_property>
<obj_property name="ObjectShortName">empty</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/xpm_fifo_async_inst/PROG_FULL_THRESH">
<obj_property name="ElementShortName">PROG_FULL_THRESH[31:0]</obj_property>
<obj_property name="ObjectShortName">PROG_FULL_THRESH[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/xpm_fifo_async_inst/wr_data_count">
<obj_property name="ElementShortName">wr_data_count[4:0]</obj_property>
<obj_property name="ObjectShortName">wr_data_count[4:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_accumulator_top/dut/output_async_fifo/xpm_fifo_async_inst/rd_data_count">
<obj_property name="ElementShortName">rd_data_count[6:0]</obj_property>
<obj_property name="ObjectShortName">rd_data_count[6:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
</wvobject>
</wave_config>

196
rtl/accum/tests/tb_out_axis_fifo_behav.wcfg Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="tb_out_axis_fifo_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="tb_out_axis_fifo" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="18,433.000 ns"></ZoomStartTime>
<ZoomEndTime time="24,238.001 ns"></ZoomEndTime>
<Cursor1Time time="21,618.000 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="196"></NameColumnWidth>
<ValueColumnWidth column_width="147"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="37" />
<wvobject type="logic" fp_name="/tb_out_axis_fifo/eth_clk_in">
<obj_property name="ElementShortName">eth_clk_in</obj_property>
<obj_property name="ObjectShortName">eth_clk_in</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/acc_clk_in">
<obj_property name="ElementShortName">acc_clk_in</obj_property>
<obj_property name="ObjectShortName">acc_clk_in</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/rst">
<obj_property name="ElementShortName">rst</obj_property>
<obj_property name="ObjectShortName">rst</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/smp_num">
<obj_property name="ElementShortName">smp_num[31:0]</obj_property>
<obj_property name="ObjectShortName">smp_num[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/acc_din">
<obj_property name="ElementShortName">acc_din[31:0]</obj_property>
<obj_property name="ObjectShortName">acc_din[31:0]</obj_property>
<obj_property name="CustomSignalColor">#FF0080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/din_valid">
<obj_property name="ElementShortName">din_valid</obj_property>
<obj_property name="ObjectShortName">din_valid</obj_property>
<obj_property name="CustomSignalColor">#FF0080</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/fifo_din_r">
<obj_property name="ElementShortName">fifo_din_r[31:0]</obj_property>
<obj_property name="ObjectShortName">fifo_din_r[31:0]</obj_property>
<obj_property name="CustomSignalColor">#FFA500</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/fifo_wr_en_r">
<obj_property name="ElementShortName">fifo_wr_en_r</obj_property>
<obj_property name="ObjectShortName">fifo_wr_en_r</obj_property>
<obj_property name="CustomSignalColor">#FFA500</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/readout_begin">
<obj_property name="ElementShortName">readout_begin</obj_property>
<obj_property name="ObjectShortName">readout_begin</obj_property>
<obj_property name="CustomSignalColor">#FFFF00</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/batch_req">
<obj_property name="ElementShortName">batch_req</obj_property>
<obj_property name="ObjectShortName">batch_req</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/finish">
<obj_property name="ElementShortName">finish</obj_property>
<obj_property name="ObjectShortName">finish</obj_property>
<obj_property name="CustomSignalColor">#00FFFF</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/m_axis_tdata">
<obj_property name="ElementShortName">m_axis_tdata[7:0]</obj_property>
<obj_property name="ObjectShortName">m_axis_tdata[7:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/m_axis_tvalid">
<obj_property name="ElementShortName">m_axis_tvalid</obj_property>
<obj_property name="ObjectShortName">m_axis_tvalid</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/m_axis_tready">
<obj_property name="ElementShortName">m_axis_tready</obj_property>
<obj_property name="ObjectShortName">m_axis_tready</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/m_axis_tlast">
<obj_property name="ElementShortName">m_axis_tlast</obj_property>
<obj_property name="ObjectShortName">m_axis_tlast</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/axis_byte_count">
<obj_property name="ElementShortName">axis_byte_count[31:0]</obj_property>
<obj_property name="ObjectShortName">axis_byte_count[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
<obj_property name="CustomSignalColor">#F0E68C</obj_property>
<obj_property name="UseCustomSignalColor">true</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/ACCUM_WIDTH">
<obj_property name="ElementShortName">ACCUM_WIDTH[31:0]</obj_property>
<obj_property name="ObjectShortName">ACCUM_WIDTH[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/WINDOW_SIZE">
<obj_property name="ElementShortName">WINDOW_SIZE[31:0]</obj_property>
<obj_property name="ObjectShortName">WINDOW_SIZE[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/PACKET_SIZE">
<obj_property name="ElementShortName">PACKET_SIZE[31:0]</obj_property>
<obj_property name="ObjectShortName">PACKET_SIZE[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/wr_state">
<obj_property name="ElementShortName">wr_state[2:0]</obj_property>
<obj_property name="ObjectShortName">wr_state[2:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/wr_cnt">
<obj_property name="ElementShortName">wr_cnt[31:0]</obj_property>
<obj_property name="ObjectShortName">wr_cnt[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/wr_batch_tgt">
<obj_property name="ElementShortName">wr_batch_tgt[31:0]</obj_property>
<obj_property name="ObjectShortName">wr_batch_tgt[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/wr_total">
<obj_property name="ElementShortName">wr_total[31:0]</obj_property>
<obj_property name="ObjectShortName">wr_total[31:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/prog_empty">
<obj_property name="ElementShortName">prog_empty</obj_property>
<obj_property name="ObjectShortName">prog_empty</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/prog_full">
<obj_property name="ElementShortName">prog_full</obj_property>
<obj_property name="ObjectShortName">prog_full</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/wr_ack">
<obj_property name="ElementShortName">wr_ack</obj_property>
<obj_property name="ObjectShortName">wr_ack</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/wr_data_count">
<obj_property name="ElementShortName">wr_data_count[2:0]</obj_property>
<obj_property name="ObjectShortName">wr_data_count[2:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/wr_data_count">
<obj_property name="ElementShortName">wr_data_count[2:0]</obj_property>
<obj_property name="ObjectShortName">wr_data_count[2:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/rd_data_count">
<obj_property name="ElementShortName">rd_data_count[4:0]</obj_property>
<obj_property name="ObjectShortName">rd_data_count[4:0]</obj_property>
<obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/rst_sync_ff">
<obj_property name="ElementShortName">rst_sync_ff[1:0]</obj_property>
<obj_property name="ObjectShortName">rst_sync_ff[1:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/tb_out_axis_fifo/dut/rd_state">
<obj_property name="ElementShortName">rd_state[2:0]</obj_property>
<obj_property name="ObjectShortName">rd_state[2:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/rd_en">
<obj_property name="ElementShortName">rd_en</obj_property>
<obj_property name="ObjectShortName">rd_en</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/rd_valid">
<obj_property name="ElementShortName">rd_valid</obj_property>
<obj_property name="ObjectShortName">rd_valid</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/overflow">
<obj_property name="ElementShortName">overflow</obj_property>
<obj_property name="ObjectShortName">overflow</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/dut/xpm_fifo_async_inst/wr_rst_busy">
<obj_property name="ElementShortName">wr_rst_busy</obj_property>
<obj_property name="ObjectShortName">wr_rst_busy</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/send_req">
<obj_property name="ElementShortName">send_req</obj_property>
<obj_property name="ObjectShortName">send_req</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/tb_out_axis_fifo/req_ready">
<obj_property name="ElementShortName">req_ready</obj_property>
<obj_property name="ObjectShortName">req_ready</obj_property>
</wvobject>
</wave_config>

10
rtl/accum/tests/test_timing.xdc Normal file
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# Primary clocks
create_clock -name eth_clk -period 8.000 [get_ports eth_clk_in]
create_clock -name acc_clk -period 15.385 [get_ports clk_in]
# Asynchronous clock groups
set_clock_groups -name ASYNC_ETH_ACC -asynchronous \
-group [get_clocks eth_clk] \
-group [get_clocks acc_clk]

62
rtl/controller/README.md Normal file
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# Системный контроллер
Контроллер принимает входные пакеты udp с ethernet, передаваемые по axi stream, и выполняет настройку выходных регистров в соотвествии с содержимым этого пакета, а также синхронизирует сигналы между тремя clock domains - есть clk от ethernet, clk для ЦАП и clk для АЦП
## Список параметров:
- dac_data_width - битность данных ЦАП, <= 16bit
## Список входных портов:
- eth_clk_in - базовая входная частота
- dac_clk_in - входная частота ЦАП
- adc_clk_in - входная частота АЦП
- rst_n - общий reset
- s_axis [8 bit] - AXI stream slave для приема данных от ethernet udp (уже разобранный payload по байтам) - домен eth_clk
- finish - сигнал окончания приема данных с АЦП, домен adc_clk !
## Список выходных портов:
- dac_pulse_width[31:0] - выход pulse_width в домене dac_clk
- dac_pulse_period[31:0] - выход pulse_period в домене dac_clk
- dac_pulse_height[dac_data_width-1:0] - выход pulse_height в домене dac_clk
- dac_pulse_num[15:0] - выход pulse_num в домене dac_clk
---
- adc_pulse_period[31:0] - выход pulse_period в домене adc_clk
- adc_pulse_num[15:0] - выход pulse_num в домене adc_clk
---
- dac_start - start в домене dac_clk
- adc_start - start в домене adc_clk
---
- dac_rst - rst в домене dac_clk
- adc_rst - rst в домене adc_clk
## Логика работы:
по умолчанию после инициализации блок встает в состояние ожидания (*idle*), и становится *ready* для приема данных по axis.
далее ждет контрольный пакет. всего есть 3 вариации контрольных пакетов (в любом порядке), получаемых по axi stream:
```
8'b00001111 - soft reset
8'b11110000 - start
8'b10001000 - set_data
```
*soft reset* отправляет пульс rst на dac_rst и adc_rst, синхронизировав пульсы в их доменах. при этом сброс самого контроллера не происходит, значения остаются как и были
*start* отправляет пульс start на dac_start и adc_start в их доменах. при этом после этого блок перестает быть ready и ждет, пока не придет пульс finish, после этого он возвращается снова в *idle* состояние
*set_data* значит, что следующие 96 бит = 12*8 байт, пришедшии по axis - это конфигурационная информация и ее нужно записать в внутренний регистр на 96 бит.
конфигурационный регистр на 96 бит делится так:
```
reg[31:0] - pulse_width
reg[63:32] - pulse_period
reg[79:64] - pulse_num
reg[79+dac_data_width:80] - pulse_height
```
соотвественно эти записанные значения выставляются на соотвествующие выходные сигналы в доменах dac_clk и adc_clk. выходы обновляются каждый раз, когда происходит set_data, и сигналы сохраняют своё значение до следующего set_data.
## Симуляция
Тесты запускаются автоматически через make.
```
cd tests
make sim
```
Должно выдать "All tests done" в конце симуляции.

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module control #(
parameter int unsigned DAC_DATA_WIDTH = 12
) (
input logic eth_clk_in,
input logic dac_clk_in,
input logic adc_clk_in,
input logic rst_n,
// AXI stream slave, eth_clk_in domain
input logic [7:0] s_axis_tdata,
input logic s_axis_tvalid,
output logic s_axis_tready,
input logic s_axis_tlast,
// adc_clk_in domain
input logic finish,
// dac_clk_in domain outputs
output logic [31:0] dac_pulse_width,
output logic [31:0] dac_pulse_period,
output logic [DAC_DATA_WIDTH-1:0] dac_pulse_height,
output logic [15:0] dac_pulse_num,
// adc_clk_in domain outputs
output logic [31:0] adc_pulse_period,
output logic [15:0] adc_pulse_num,
// pulse outputs
output logic dac_start,
output logic adc_start,
output logic dac_rst,
output logic adc_rst
);
// static checks
initial begin
if (DAC_DATA_WIDTH > 16) begin
$error("DAC_DATA_WIDTH must be <= 16");
end
if (DAC_DATA_WIDTH == 0) begin
$error("DAC_DATA_WIDTH must be > 0");
end
end
// command constants
localparam logic [7:0] CMD_SOFT_RESET = 8'h0F;
localparam logic [7:0] CMD_START = 8'hF0;
localparam logic [7:0] CMD_SET_DATA = 8'h88;
// reset synchronizers: async assert, sync deassert in each domain
logic eth_rst_ff1, eth_rst_ff2;
logic dac_rst_ff1, dac_rst_ff2;
logic adc_rst_ff1, adc_rst_ff2;
logic eth_rst;
logic dac_rst_int;
logic adc_rst_int;
always_ff @(posedge eth_clk_in or negedge rst_n) begin
if (!rst_n) begin
eth_rst_ff1 <= 1'b1;
eth_rst_ff2 <= 1'b1;
end else begin
eth_rst_ff1 <= 1'b0;
eth_rst_ff2 <= eth_rst_ff1;
end
end
always_ff @(posedge dac_clk_in or negedge rst_n) begin
if (!rst_n) begin
dac_rst_ff1 <= 1'b1;
dac_rst_ff2 <= 1'b1;
end else begin
dac_rst_ff1 <= 1'b0;
dac_rst_ff2 <= dac_rst_ff1;
end
end
always_ff @(posedge adc_clk_in or negedge rst_n) begin
if (!rst_n) begin
adc_rst_ff1 <= 1'b1;
adc_rst_ff2 <= 1'b1;
end else begin
adc_rst_ff1 <= 1'b0;
adc_rst_ff2 <= adc_rst_ff1;
end
end
assign eth_rst = eth_rst_ff2;
assign dac_rst_int = dac_rst_ff2;
assign adc_rst_int = adc_rst_ff2;
// axi stream is always accepted. If packet is not needed, it is discarded.
assign s_axis_tready = 1'b1;
(* MARK_DEBUG="true" *) wire axis_hs = s_axis_tvalid & s_axis_tready;
// -------------------------------------------------------------------------
// Shared 96-bit config bus in ETH domain
//
// Byte order for SET_DATA payload, little-endian:
// payload byte 0 -> cfg_bus_eth[7:0]
// payload byte 1 -> cfg_bus_eth[15:8]
// ...etc...
// payload byte 11 -> cfg_bus_eth[95:88]
//
// Field layout inside cfg_bus_eth:
// [31:0] pulse_width
// [63:32] pulse_period
// [79:64] pulse_num
// [95:80] pulse_height_raw[15:0]
// -------------------------------------------------------------------------
(* MARK_DEBUG="true" *) logic [95:0] cfg_bus_eth;
logic [95:0] cfg_shift_eth;
// ETH-domain parser and control
typedef enum logic [2:0] {
ST_IDLE = 3'd0,
ST_RECV_CFG = 3'd1,
ST_WAIT_CFG_ACK = 3'd2,
ST_DISCARD = 3'd3
} eth_state_t;
(* MARK_DEBUG="true" *) eth_state_t eth_state;
logic [3:0] cfg_byte_cnt;
// Busy flag: set by START command, cleared by finish event from ADC domain
(* MARK_DEBUG="true" *) logic busy_flag_eth;
// Pending ACKs for config delivery
logic cfg_wait_dac_ack;
logic cfg_wait_adc_ack;
// Event toggles ETH -> DAC/ADC
logic start_toggle_eth;
logic rst_toggle_eth;
// Config request toggles ETH -> DAC/ADC
logic cfg_req_toggle_dac_eth;
logic cfg_req_toggle_adc_eth;
// ACK toggles DAC/ADC -> ETH
logic cfg_ack_toggle_dac;
logic cfg_ack_toggle_adc;
(* ASYNC_REG = "TRUE" *) logic cfg_ack_toggle_dac_meta, cfg_ack_toggle_dac_sync, cfg_ack_toggle_dac_sync_d;
(* ASYNC_REG = "TRUE" *) logic cfg_ack_toggle_adc_meta, cfg_ack_toggle_adc_sync, cfg_ack_toggle_adc_sync_d;
wire cfg_ack_pulse_dac_eth = cfg_ack_toggle_dac_sync ^ cfg_ack_toggle_dac_sync_d;
wire cfg_ack_pulse_adc_eth = cfg_ack_toggle_adc_sync ^ cfg_ack_toggle_adc_sync_d;
always_ff @(posedge eth_clk_in or posedge eth_rst) begin
if (eth_rst) begin
cfg_ack_toggle_dac_meta <= 1'b0;
cfg_ack_toggle_dac_sync <= 1'b0;
cfg_ack_toggle_dac_sync_d <= 1'b0;
cfg_ack_toggle_adc_meta <= 1'b0;
cfg_ack_toggle_adc_sync <= 1'b0;
cfg_ack_toggle_adc_sync_d <= 1'b0;
end else begin
cfg_ack_toggle_dac_meta <= cfg_ack_toggle_dac;
cfg_ack_toggle_dac_sync <= cfg_ack_toggle_dac_meta;
cfg_ack_toggle_dac_sync_d <= cfg_ack_toggle_dac_sync;
cfg_ack_toggle_adc_meta <= cfg_ack_toggle_adc;
cfg_ack_toggle_adc_sync <= cfg_ack_toggle_adc_meta;
cfg_ack_toggle_adc_sync_d <= cfg_ack_toggle_adc_sync;
end
end
// finish event: ADC -> ETH via toggle CDC
logic finish_toggle_adc;
logic finish_meta_eth, finish_sync_eth, finish_sync_eth_d;
wire finish_pulse_eth = finish_sync_eth ^ finish_sync_eth_d;
always_ff @(posedge adc_clk_in or posedge adc_rst_int) begin
if (adc_rst_int) begin
finish_toggle_adc <= 1'b0;
end else if (finish) begin
finish_toggle_adc <= ~finish_toggle_adc;
end
end
always_ff @(posedge eth_clk_in or posedge eth_rst) begin
if (eth_rst) begin
finish_meta_eth <= 1'b0;
finish_sync_eth <= 1'b0;
finish_sync_eth_d <= 1'b0;
end else begin
finish_meta_eth <= finish_toggle_adc;
finish_sync_eth <= finish_meta_eth;
finish_sync_eth_d <= finish_sync_eth;
end
end
// ETH FSM
always_ff @(posedge eth_clk_in or posedge eth_rst) begin
if (eth_rst) begin
eth_state <= ST_IDLE;
cfg_byte_cnt <= '0;
cfg_shift_eth <= '0;
cfg_bus_eth <= '0;
busy_flag_eth <= 1'b0;
start_toggle_eth <= 1'b0;
rst_toggle_eth <= 1'b0;
cfg_req_toggle_dac_eth <= 1'b0;
cfg_req_toggle_adc_eth <= 1'b0;
cfg_wait_dac_ack <= 1'b0;
cfg_wait_adc_ack <= 1'b0;
end else begin
// finish always clears busy
if (finish_pulse_eth) begin
busy_flag_eth <= 1'b0;
end
// config acks
if (cfg_ack_pulse_dac_eth) begin
cfg_wait_dac_ack <= 1'b0;
end
if (cfg_ack_pulse_adc_eth) begin
cfg_wait_adc_ack <= 1'b0;
end
case (eth_state)
ST_IDLE: begin
cfg_byte_cnt <= '0;
cfg_shift_eth <= cfg_shift_eth;
if (axis_hs) begin
// if busy, drop the whole packet
if (busy_flag_eth) begin
if (!s_axis_tlast) begin
eth_state <= ST_DISCARD;
end
end else begin
unique case (s_axis_tdata)
CMD_SOFT_RESET: begin
rst_toggle_eth <= ~rst_toggle_eth;
end
CMD_START: begin
start_toggle_eth <= ~start_toggle_eth;
busy_flag_eth <= 1'b1;
end
CMD_SET_DATA: begin
// expect exactly 12 bytes after command
if (s_axis_tlast) begin
// no payload, invalid packet
eth_state <= ST_IDLE;
end else begin
cfg_byte_cnt <= 4'd0;
cfg_shift_eth <= '0;
eth_state <= ST_RECV_CFG;
end
end
default: begin
// unknown command: discard packet remainder if any
if (!s_axis_tlast) begin
eth_state <= ST_DISCARD;
end
end
endcase
end
end
end
ST_RECV_CFG: begin
if (axis_hs) begin
// little endian packing
cfg_shift_eth[cfg_byte_cnt*8 +: 8] <= s_axis_tdata;
if (cfg_byte_cnt == 4'd11) begin
// this must be the final payload byte
if (s_axis_tlast) begin
cfg_bus_eth <= {s_axis_tdata, cfg_shift_eth[87:0]};
cfg_req_toggle_dac_eth <= ~cfg_req_toggle_dac_eth;
cfg_req_toggle_adc_eth <= ~cfg_req_toggle_adc_eth;
cfg_wait_dac_ack <= 1'b1;
cfg_wait_adc_ack <= 1'b1;
eth_state <= ST_WAIT_CFG_ACK;
end else begin
// too many bytes in packet
eth_state <= ST_DISCARD;
end
end else begin
// early tlast means packet too short!!
if (s_axis_tlast) begin
eth_state <= ST_IDLE;
end else begin
cfg_byte_cnt <= cfg_byte_cnt + 4'd1;
end
end
end
end
ST_WAIT_CFG_ACK: begin
// any incoming packet while waiting ack is discarded
if (cfg_ack_pulse_dac_eth || cfg_ack_pulse_adc_eth) begin
if ((~cfg_wait_dac_ack || cfg_ack_pulse_dac_eth) &&
(~cfg_wait_adc_ack || cfg_ack_pulse_adc_eth)) begin
eth_state <= ST_IDLE;
end
end
if (axis_hs && !s_axis_tlast) begin
eth_state <= ST_DISCARD;
end
end
ST_DISCARD: begin
if (axis_hs && s_axis_tlast) begin
eth_state <= ST_IDLE;
end
end
default: begin
eth_state <= ST_IDLE;
end
endcase
end
end
// ETH -> DAC: start/reset event sync
(* ASYNC_REG = "TRUE" *) logic start_meta_dac, start_sync_dac;
logic start_sync_dac_d;
(* ASYNC_REG = "TRUE" *) logic rst_meta_dac, rst_sync_dac;
logic rst_sync_dac_d;
wire dac_start_pulse = start_sync_dac ^ start_sync_dac_d;
wire dac_rst_pulse = rst_sync_dac ^ rst_sync_dac_d;
always_ff @(posedge dac_clk_in or posedge dac_rst_int) begin
if (dac_rst_int) begin
start_meta_dac <= 1'b0;
start_sync_dac <= 1'b0;
start_sync_dac_d <= 1'b0;
rst_meta_dac <= 1'b0;
rst_sync_dac <= 1'b0;
rst_sync_dac_d <= 1'b0;
dac_start <= 1'b0;
dac_rst <= 1'b0;
end else begin
start_meta_dac <= start_toggle_eth;
start_sync_dac <= start_meta_dac;
start_sync_dac_d <= start_sync_dac;
rst_meta_dac <= rst_toggle_eth;
rst_sync_dac <= rst_meta_dac;
rst_sync_dac_d <= rst_sync_dac;
dac_start <= dac_start_pulse;
dac_rst <= dac_rst_pulse;
end
end
// ETH -> ADC: start/reset event sync
(* ASYNC_REG = "TRUE" *) logic start_meta_adc, start_sync_adc;
logic start_sync_adc_d;
(* ASYNC_REG = "TRUE" *) logic rst_meta_adc, rst_sync_adc;
logic rst_sync_adc_d;
wire adc_start_pulse = start_sync_adc ^ start_sync_adc_d;
wire adc_rst_pulse = rst_sync_adc ^ rst_sync_adc_d;
always_ff @(posedge adc_clk_in or posedge adc_rst_int) begin
if (adc_rst_int) begin
start_meta_adc <= 1'b0;
start_sync_adc <= 1'b0;
start_sync_adc_d <= 1'b0;
rst_meta_adc <= 1'b0;
rst_sync_adc <= 1'b0;
rst_sync_adc_d <= 1'b0;
adc_start <= 1'b0;
adc_rst <= 1'b0;
end else begin
start_meta_adc <= start_toggle_eth;
start_sync_adc <= start_meta_adc;
start_sync_adc_d <= start_sync_adc;
rst_meta_adc <= rst_toggle_eth;
rst_sync_adc <= rst_meta_adc;
rst_sync_adc_d <= rst_sync_adc;
adc_start <= adc_start_pulse;
adc_rst <= adc_rst_pulse;
end
end
// ETH -> DAC config CDC
// cfg_bus_eth is kept stable in ETH domain until DAC and ADC both ACK.
(* ASYNC_REG = "TRUE" *) logic cfg_req_meta_dac, cfg_req_sync_dac;
logic cfg_req_sync_dac_d;
wire cfg_req_pulse_dac = cfg_req_sync_dac ^ cfg_req_sync_dac_d;
always_ff @(posedge dac_clk_in or posedge dac_rst_int) begin
if (dac_rst_int) begin
cfg_req_meta_dac <= 1'b0;
cfg_req_sync_dac <= 1'b0;
cfg_req_sync_dac_d<= 1'b0;
cfg_ack_toggle_dac<= 1'b0;
dac_pulse_width <= '0;
dac_pulse_period <= '0;
dac_pulse_num <= '0;
dac_pulse_height <= '0;
end else begin
cfg_req_meta_dac <= cfg_req_toggle_dac_eth;
cfg_req_sync_dac <= cfg_req_meta_dac;
cfg_req_sync_dac_d <= cfg_req_sync_dac;
if (cfg_req_pulse_dac) begin
dac_pulse_width <= cfg_bus_eth[31:0];
dac_pulse_period <= cfg_bus_eth[63:32];
dac_pulse_num <= cfg_bus_eth[79:64];
dac_pulse_height <= cfg_bus_eth[80 +: DAC_DATA_WIDTH];
cfg_ack_toggle_dac <= ~cfg_ack_toggle_dac;
end
end
end
// ETH -> ADC config CDC
logic cfg_req_meta_adc, cfg_req_sync_adc, cfg_req_sync_adc_d;
wire cfg_req_pulse_adc = cfg_req_sync_adc ^ cfg_req_sync_adc_d;
always_ff @(posedge adc_clk_in or posedge adc_rst_int) begin
if (adc_rst_int) begin
cfg_req_meta_adc <= 1'b0;
cfg_req_sync_adc <= 1'b0;
cfg_req_sync_adc_d <= 1'b0;
cfg_ack_toggle_adc <= 1'b0;
adc_pulse_period <= '0;
adc_pulse_num <= '0;
end else begin
cfg_req_meta_adc <= cfg_req_toggle_adc_eth;
cfg_req_sync_adc <= cfg_req_meta_adc;
cfg_req_sync_adc_d <= cfg_req_sync_adc;
if (cfg_req_pulse_adc) begin
adc_pulse_period <= cfg_bus_eth[63:32];
adc_pulse_num <= cfg_bus_eth[79:64];
cfg_ack_toggle_adc <= ~cfg_ack_toggle_adc;
end
end
end
endmodule

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rtl/controller/tests/Makefile Normal file
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# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = control
FPGA_ARCH = artix7
RTL_DIR = ../src
include ../../../scripts/vivado.mk
SYN_FILES += $(sort $(shell find ../src -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../src -type f -name '*.xci'))
XDC_FILES += ../../../constraints/ax7a035b.xdc
XDC_FILES += test_timing.xdc
SYN_FILES += controller_tb.sv
SIM_TOP = control_tb
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

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`timescale 1ns/1ps
module tb_control;
localparam int unsigned DAC_DATA_WIDTH = 12;
// Clocks / reset
logic eth_clk_in;
logic dac_clk_in;
logic adc_clk_in;
logic rst_n;
// axi stream (input)
logic [7:0] s_axis_tdata;
logic s_axis_tvalid;
logic s_axis_tready;
logic s_axis_tlast;
// ADC side input
logic finish;
// DUT outputs
logic [31:0] dac_pulse_width;
logic [31:0] dac_pulse_period;
logic [DAC_DATA_WIDTH-1:0] dac_pulse_height;
logic [15:0] dac_pulse_num;
logic [31:0] adc_pulse_period;
logic [15:0] adc_pulse_num;
logic dac_start;
logic adc_start;
logic dac_rst;
logic adc_rst;
// DUT
control #(
.DAC_DATA_WIDTH(DAC_DATA_WIDTH)
) dut (
.eth_clk_in (eth_clk_in),
.dac_clk_in (dac_clk_in),
.adc_clk_in (adc_clk_in),
.rst_n (rst_n),
.s_axis_tdata (s_axis_tdata),
.s_axis_tvalid (s_axis_tvalid),
.s_axis_tready (s_axis_tready),
.s_axis_tlast (s_axis_tlast),
.finish (finish),
.dac_pulse_width (dac_pulse_width),
.dac_pulse_period (dac_pulse_period),
.dac_pulse_height (dac_pulse_height),
.dac_pulse_num (dac_pulse_num),
.adc_pulse_period (adc_pulse_period),
.adc_pulse_num (adc_pulse_num),
.dac_start (dac_start),
.adc_start (adc_start),
.dac_rst (dac_rst),
.adc_rst (adc_rst)
);
// Clock generation
initial begin
eth_clk_in = 1'b0;
forever #(1 * 4.000) eth_clk_in = ~eth_clk_in; // 125 MHz
end
initial begin
dac_clk_in = 1'b0;
forever #(1 * 3.846153846) dac_clk_in = ~dac_clk_in; // ~130 MHz
end
initial begin
adc_clk_in = 1'b0;
forever #(1 * 7.692307692) adc_clk_in = ~adc_clk_in; // ~65 MHz
end
// pulse counters and monitors for testing
int dac_rst_count;
int adc_rst_count;
int dac_start_count;
int adc_start_count;
always_ff @(posedge dac_clk_in) begin
if (!rst_n) begin
dac_rst_count <= 0;
dac_start_count <= 0;
end else begin
if (dac_rst) dac_rst_count <= dac_rst_count + 1;
if (dac_start) dac_start_count <= dac_start_count + 1;
end
end
always_ff @(posedge adc_clk_in) begin
if (!rst_n) begin
adc_rst_count <= 0;
adc_start_count <= 0;
end else begin
if (adc_rst) adc_rst_count <= adc_rst_count + 1;
if (adc_start) adc_start_count <= adc_start_count + 1;
end
end
// some helpers for axi
task automatic axis_send_byte(input logic [7:0] data, input logic last);
begin
@(negedge eth_clk_in);
s_axis_tdata <= data;
s_axis_tvalid <= 1'b1;
s_axis_tlast <= last;
@(posedge eth_clk_in);
while (!s_axis_tready) begin
@(posedge eth_clk_in);
end
s_axis_tvalid <= 1'b0;
s_axis_tlast <= 1'b0;
s_axis_tdata <= '0;
end
endtask
task automatic send_cmd(input logic [7:0] cmd);
begin
axis_send_byte(cmd, 1'b1);
end
endtask
task automatic send_set_data(
input logic [31:0] pulse_width,
input logic [31:0] pulse_period,
input logic [15:0] pulse_num,
input logic [15:0] pulse_height_raw
);
logic [95:0] payload;
int i;
begin
// little-endian payload layout:
// [31:0] pulse_width
// [63:32] pulse_period
// [79:64] pulse_num
// [95:80] pulse_height_raw
payload = {pulse_height_raw, pulse_num, pulse_period, pulse_width};
axis_send_byte(8'h88, 1'b0); // CMD_SET_DATA
for (i = 0; i < 12; i++) begin
axis_send_byte(payload[i*8 +: 8], (i == 11));
end
end
endtask
task automatic pulse_finish;
begin
@(posedge adc_clk_in);
finish <= 1'b1;
@(posedge adc_clk_in);
finish <= 1'b0;
end
endtask
// waiters
task automatic wait_dac_rst_count(input int expected, input int max_cycles = 100);
int i;
begin
for (i = 0; i < max_cycles; i++) begin
@(posedge dac_clk_in);
if (dac_rst_count >= expected) return;
end
$fatal(1, "Timeout waiting for dac_rst_count >= %0d, current=%0d", expected, dac_rst_count);
end
endtask
task automatic wait_adc_rst_count(input int expected, input int max_cycles = 100);
int i;
begin
for (i = 0; i < max_cycles; i++) begin
@(posedge adc_clk_in);
if (adc_rst_count >= expected) return;
end
$fatal(1, "Timeout waiting for adc_rst_count >= %0d, current=%0d", expected, adc_rst_count);
end
endtask
task automatic wait_dac_start_count(input int expected, input int max_cycles = 100);
int i;
begin
for (i = 0; i < max_cycles; i++) begin
@(posedge dac_clk_in);
if (dac_start_count >= expected) return;
end
$fatal(1, "Timeout waiting for dac_start_count >= %0d, current=%0d", expected, dac_start_count);
end
endtask
task automatic wait_adc_start_count(input int expected, input int max_cycles = 100);
int i;
begin
for (i = 0; i < max_cycles; i++) begin
@(posedge adc_clk_in);
if (adc_start_count >= expected) return;
end
$fatal(1, "Timeout waiting for adc_start_count >= %0d, current=%0d", expected, adc_start_count);
end
endtask
task automatic wait_cfg_applied(
input logic [31:0] exp_pulse_width,
input logic [31:0] exp_pulse_period,
input logic [15:0] exp_pulse_num,
input logic [15:0] exp_pulse_height_raw,
input int max_cycles = 200
);
logic [DAC_DATA_WIDTH-1:0] exp_dac_height;
int i;
begin
exp_dac_height = exp_pulse_height_raw[DAC_DATA_WIDTH-1:0];
for (i = 0; i < max_cycles; i++) begin
@(posedge eth_clk_in);
if ((dac_pulse_width === exp_pulse_width ) &&
(dac_pulse_period === exp_pulse_period) &&
(dac_pulse_num === exp_pulse_num ) &&
(dac_pulse_height === exp_dac_height ) &&
(adc_pulse_period === exp_pulse_period) &&
(adc_pulse_num === exp_pulse_num )) begin
return;
end
end
$fatal(1,
"Timeout waiting config outputs. Got: dac_width=%h dac_period=%h dac_num=%h dac_height=%h adc_period=%h adc_num=%h",
dac_pulse_width, dac_pulse_period, dac_pulse_num, dac_pulse_height,
adc_pulse_period, adc_pulse_num
);
end
endtask
// Test sequence
logic [31:0] test_pulse_width;
logic [31:0] test_pulse_period;
logic [15:0] test_pulse_num;
logic [15:0] test_pulse_height_raw;
initial begin
// defaults
rst_n = 1'b0;
s_axis_tdata = '0;
s_axis_tvalid = 1'b0;
s_axis_tlast = 1'b0;
finish = 1'b0;
test_pulse_width = 32'h11223344;
test_pulse_period = 32'h55667788;
test_pulse_num = 16'hA1B2;
test_pulse_height_raw = 16'h0CDE; // for DAC_DATA_WIDTH=12 => 12'hCDE
repeat (10) @(posedge eth_clk_in);
rst_n = 1'b1;
repeat (10) @(posedge eth_clk_in);
$display("[%0t] TEST 1: soft_reset", $time);
send_cmd(8'h0F);
wait_dac_rst_count(1);
wait_adc_rst_count(1);
if (dac_rst_count != 1) begin
$fatal(1, "Expected exactly one dac_rst pulse after first soft_reset, got %0d", dac_rst_count);
end
if (adc_rst_count != 1) begin
$fatal(1, "Expected exactly one adc_rst pulse after first soft_reset, got %0d", adc_rst_count);
end
$display("[%0t] TEST 1 passed", $time);
$display("[%0t] TEST 2: set_data", $time);
send_set_data(
test_pulse_width,
test_pulse_period,
test_pulse_num,
test_pulse_height_raw
);
wait_cfg_applied(
test_pulse_width,
test_pulse_period,
test_pulse_num,
test_pulse_height_raw
);
if (dac_pulse_width !== 32'h11223344) begin
$fatal(1, "dac_pulse_width mismatch: got %h expected %h", dac_pulse_width, 32'h11223344);
end
if (dac_pulse_period !== 32'h55667788) begin
$fatal(1, "dac_pulse_period mismatch: got %h expected %h", dac_pulse_period, 32'h55667788);
end
if (dac_pulse_num !== 16'hA1B2) begin
$fatal(1, "dac_pulse_num mismatch: got %h expected %h", dac_pulse_num, 16'hA1B2);
end
if (dac_pulse_height !== 12'hCDE) begin
$fatal(1, "dac_pulse_height mismatch: got %h expected %h", dac_pulse_height, 12'hCDE);
end
if (adc_pulse_period !== 32'h55667788) begin
$fatal(1, "adc_pulse_period mismatch: got %h expected %h", adc_pulse_period, 32'h55667788);
end
if (adc_pulse_num !== 16'hA1B2) begin
$fatal(1, "adc_pulse_num mismatch: got %h expected %h", adc_pulse_num, 16'hA1B2);
end
$display("[%0t] TEST 2 passed", $time);
repeat (20) @(posedge eth_clk_in);
$display("[%0t] TEST 3: start", $time);
send_cmd(8'hF0);
wait_dac_start_count(1);
wait_adc_start_count(1);
if (dac_start_count != 1) begin
$fatal(1, "Expected exactly one dac_start pulse after first start, got %0d", dac_start_count);
end
if (adc_start_count != 1) begin
$fatal(1, "Expected exactly one adc_start pulse after first start, got %0d", adc_start_count);
end
$display("[%0t] TEST 3 start pulses passed", $time);
// release busy by finish pulse from ADC domain
$display("[%0t] Sending finish pulse", $time);
pulse_finish();
// a bit of wait for finish CDC back to ETH
repeat (20) @(posedge eth_clk_in);
// sanity check that commands are accepted again after finish
$display("[%0t] TEST 4: soft_reset after finish", $time);
send_cmd(8'h0F);
wait_dac_rst_count(2);
wait_adc_rst_count(2);
if (dac_rst_count != 2) begin
$fatal(1, "Expected exactly two dac_rst pulses total, got %0d", dac_rst_count);
end
if (adc_rst_count != 2) begin
$fatal(1, "Expected exactly two adc_rst pulses total, got %0d", adc_rst_count);
end
$display("[%0t] TEST 4 passed", $time);
$display("==============================================");
$display("ALL BASIC TESTS PASSED");
$display("dac_rst_count = %0d", dac_rst_count);
$display("adc_rst_count = %0d", adc_rst_count);
$display("dac_start_count = %0d", dac_start_count);
$display("adc_start_count = %0d", adc_start_count);
$display("==============================================");
#100;
$finish;
end
endmodule

13
rtl/controller/tests/test_timing.xdc Normal file
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@ -0,0 +1,13 @@
# Primary clocks
create_clock -name eth_clk -period 8.000 [get_ports eth_clk_in]
create_clock -name dac_clk -period 7.692 [get_ports dac_clk_in]
create_clock -name adc_clk -period 15.385 [get_ports adc_clk_in]
# Asynchronous clock groups
# eth, dac, adc are independent domains
set_clock_groups -name ASYNC_ETH_DAC_ADC -asynchronous \
-group [get_clocks eth_clk] \
-group [get_clocks dac_clk] \
-group [get_clocks adc_clk]

103
rtl/generator/src/generator.sv
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`timescale 1ns / 1ps
module generator
#(
parameter DATA_WIDTH = 14
)
(
input clk_in,
input rst,
input start,
input [31:0] pulse_width,
input [31:0] pulse_period,
input [DATA_WIDTH-1:0] pulse_height,
input [15:0] pulse_num,
output pulse,
output[DATA_WIDTH-1:0] pulse_height_out
);
logic [DATA_WIDTH-1:0] pulse_height_reg, pulse_height_out_reg;
logic pulse_reg;
logic [31:0] pulse_width_reg, pulse_period_reg;
logic [15:0] pulse_num_reg;
logic enable;
logic [15:0] cnt_pulse_num;
logic [31:0] cnt_period;
logic start_d;
always @(posedge clk_in) begin
start_d <= start;
end
wire start_pulse = start & ~start_d;
always @(posedge clk_in) begin
if (rst) begin
pulse_reg <= '0;
pulse_height_reg <= 0;
pulse_height_out_reg <= '0;
pulse_width_reg <= '0;
pulse_period_reg <= '0;
pulse_num_reg <= '0;
enable <= 0;
cnt_pulse_num <= '0;
cnt_period <= '0;
end else begin
if (start) begin
enable <= 1'b1;
// pulse_width_reg <= pulse_width;
// pulse_period_reg <= pulse_period;
// pulse_num_reg <= pulse_num;
// pulse_height_reg <= pulse_height;
cnt_pulse_num <= '0;
cnt_period <= '0;
end
if (enable) begin
pulse_reg <= 1;
pulse_width_reg <= pulse_width;
pulse_period_reg <= pulse_period;
pulse_num_reg <= pulse_num;
pulse_height_reg <= pulse_height;
if (pulse_reg) begin
if (cnt_period < pulse_width_reg) begin
pulse_height_out_reg <= pulse_height_reg;
end else begin
pulse_height_out_reg <= '0;
end
if (cnt_period == pulse_period_reg - 1) begin
cnt_period <= 0;
if (cnt_pulse_num == pulse_num_reg - 1) begin
enable <= 0;
pulse_reg <= 0;
end else begin
cnt_pulse_num <= cnt_pulse_num + 1;
end
end else begin
cnt_period <= cnt_period + 1;
end
end
end
end
end
OBUF OBUF_pulse_clk (
.I(clk_in),
.O(pulse)
);
assign pulse_height_out = pulse_height_out_reg;
endmodule

105
rtl/generator/tests/generator_tb.sv Normal file
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`timescale 1ns / 1ps
module generator_tb;
parameter DATA_WIDTH = 14;
parameter CLK_PERIOD = 16;
logic clk;
logic rst;
logic start;
logic [31:0] pulse_width;
logic [31:0] pulse_period;
logic [DATA_WIDTH-1:0] pulse_height;
logic [15:0] pulse_num;
logic pulse;
logic [DATA_WIDTH-1:0] pulse_height_out;
// DUT
generator #(
.DATA_WIDTH(DATA_WIDTH)
) dut (
.clk_in(clk),
.rst(rst),
.start(start),
.pulse_width(pulse_width),
.pulse_period(pulse_period),
.pulse_height(pulse_height),
.pulse_num(pulse_num),
.pulse(pulse),
.pulse_height_out(pulse_height_out)
);
// Clock
initial begin
clk = 0;
forever #(CLK_PERIOD/2) clk = ~clk;
end
initial begin
$display("\n=== GENERATOR TEST ===\n");
rst = 1;
start = 0;
pulse_width = 0;
pulse_period = 0;
pulse_height = 0;
pulse_num = 0;
repeat(5) @(posedge clk);
rst = 0;
// --- Test 1 ---
// 3 clk 1, 5 clk 0, 4 pulses
repeat(2) @(posedge clk);
pulse_width = 3;
pulse_period = 8;
pulse_num = 4;
pulse_height = 14'h3FF;
start = 1;
repeat(1) @(posedge clk);
start = 0;
repeat(50) @(posedge clk);
// --- Test 2 ---
$display("\n--- SECOND RUN ---\n");
@(posedge clk);
pulse_width = 2;
pulse_period = 5;
pulse_num = 3;
pulse_height = 14'h155;
start = 1;
@(posedge clk);
start = 0;
repeat(40) @(posedge clk);
pulse_width = 3;
pulse_period = 8;
pulse_num = 4;
pulse_height = 14'h3FF;
start = 1;
repeat(1) @(posedge clk);
start = 0;
repeat(50) @(posedge clk);
$display("\n=== TEST FINISHED ===");
$finish;
end
// Display
always @(posedge clk) begin
$display("t=%0t | pulse=%0b | height=%h",
$time, pulse, pulse_height_out);
end
endmodule

0
rtl/generator/tests/generator_tests.sv
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28
rtl/sampler/README.md Normal file
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@ -0,0 +1,28 @@
# Сэмплер
Модуль выполняет задачу сбора данных с выхода АЦП, их обработку, упаковку, и передачу дальше с помощью AXI Stream интерфейса.
## Cписок параметров
DATA_WIDTH - ширина входных данных, получаемых с АЦП.
PACK_FACTOR - количество отсчетов, собираемых в один выходной пакет.
PROCESS_MODE - режим интерпретации входного кода. 0 - прямой код, 1 - дополнительный код.
## Список входных портов
clk_in - сигнал тактирования выходного интерфейса.
rst - сброс модуля и остановка подачи импульсов.
[DATA_WIDTH-1:0] data_in - входной сигнал с АЦП.
out_of_range - флаг выхода значений данных за допустимый диапазон. 0 - валидны, 1 - не валидны.
## Список выходных портов
[DATA_WIDTH*PACK_FACTOR-1:0] m_axis_tdata - урезанный axis формат, выходные данные. Ширина шины считается исходя из битности данных и фактора упаковки.
m_axis_tvalid - урезанный axis формат, валидность выходных данных.
## Логика работы
На каждом такте принимаются data_in (значение АЦП) и out_of_range (флаг выхода значений данных за допустимый диапазон). Если out_of_range = 1, то данные игнорируются и не попадают во внутренний буффер. В противном случае, модуль накапливает данные во внутреннем буффере, идет его заполнение до количества данных, равное PACK_FACTOR. Когда буффер оказывается заполненным, он выдает пакет упакованных данных, сопровождая их импульсом m_axis_tvalid (готовность пакета). Если PROCESS_MODE = 1, данные выдаются в дополнительном коде, если PROCESS_MODE = 0 - в прямом.
## Симуляция
Тесты запускаются автоматически через make.
```
cd tests
make sim
```
При успешном завершении теста высвечивается "ALL PASSED".

123
rtl/sampler/src/sampler.sv
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@ -0,0 +1,123 @@
`timescale 1ns / 1ps
module sampler
#(
parameter DATA_WIDTH = 12,
parameter PACK_FACTOR = 1,
parameter PROCESS_MODE = 0
)
(
input clk_in,
input rst,
input [DATA_WIDTH-1:0] data_in,
input out_of_range,
output logic [DATA_WIDTH*PACK_FACTOR-1:0] m_axis_tdata,
output logic m_axis_tvalid
);
logic [DATA_WIDTH-1:0] data_converted;
logic out_of_range_reg;
generate
if (PROCESS_MODE) begin
always @(posedge clk_in) begin
if (rst) begin
data_converted <= '0;
out_of_range_reg <= 0;
end
else begin
out_of_range_reg <= out_of_range;
if (data_in == {1'b1, {(DATA_WIDTH-1){1'b0}}})
data_converted <= data_in;
else
data_converted <= data_in[DATA_WIDTH-1] ?{1'b1, (~data_in[DATA_WIDTH-2:0] + 1'b1)}:data_in;
end
end
end else begin
always @(posedge clk_in) begin
if (rst) begin
data_converted <= '0;
out_of_range_reg <= 0;
end
else begin
out_of_range_reg <= out_of_range;
data_converted <= data_in;
end
end
end
endgenerate
logic [DATA_WIDTH*PACK_FACTOR-1:0] buffer;
logic buffer_ready;
logic [$clog2(PACK_FACTOR):0] cnt;
generate
if (PACK_FACTOR == 1) begin
always @(posedge clk_in) begin
if (rst) begin
buffer <= '0;
buffer_ready <= 0;
end
else begin
buffer_ready <= 0;
if (!out_of_range_reg) begin
buffer <= data_converted;
buffer_ready <= 1;
end
end
end
end else begin
always @(posedge clk_in) begin
if (rst) begin
buffer <= '0;
cnt <= '0; //
buffer_ready <= 0;
end
else begin
buffer_ready <= 0;
if (!out_of_range_reg) begin
buffer <= {buffer[DATA_WIDTH*(PACK_FACTOR-1)-1:0], data_converted};
if (cnt == PACK_FACTOR-1) begin
cnt <= 0;
buffer_ready <= 1;
buffer <= {buffer[DATA_WIDTH*(PACK_FACTOR-1)-1:0], data_converted};
end
else begin
cnt <= cnt + 1;
end
end
end
end
end
endgenerate
// always @(posedge clk_in) begin
// if (rst) begin
// buffer <= '0;
// cnt <= '0; //
// buffer_ready <= 0;
// end
// else begin
// buffer_ready <= 0;
// if (!out_of_range_reg) begin
// buffer <= {buffer[DATA_WIDTH*(PACK_FACTOR-1)-1:0], data_converted};
// if (cnt == PACK_FACTOR-1) begin
// cnt <= 0;
// buffer_ready <= 1;
// buffer <= {buffer[DATA_WIDTH*(PACK_FACTOR-1)-1:0], data_converted};
// end
// else begin
// cnt <= cnt + 1;
// end
// end
// end
// end
assign m_axis_tdata = buffer;
assign m_axis_tvalid = buffer_ready;
endmodule

51
rtl/sampler/tests/Makefile Normal file
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@ -0,0 +1,51 @@
# SPDX-License-Identifier: MIT
#
# Copyright (c) 2025 FPGA Ninja, LLC
#
# Authors:
# - Alex Forencich
#
# FPGA settings
FPGA_PART = xc7a35tfgg484-1
FPGA_TOP = sampler
FPGA_ARCH = artix7
RTL_DIR = ../src
include ../../../scripts/vivado.mk
SYN_FILES += $(sort $(shell find ../src -type f \( -name '*.v' -o -name '*.sv' \)))
XCI_FILES = $(sort $(shell find ../src -type f -name '*.xci'))
XDC_FILES += ../../../constraints/ax7a035b.xdc
SYN_FILES += sampler_main_tb.sv
SIM_TOP = sampler_tb
program: $(PROJECT).bit
echo "open_hw_manager" > program.tcl
echo "connect_hw_server" >> program.tcl
echo "open_hw_target" >> program.tcl
echo "current_hw_device [lindex [get_hw_devices] 0]" >> program.tcl
echo "refresh_hw_device -update_hw_probes false [current_hw_device]" >> program.tcl
echo "set_property PROGRAM.FILE {$(PROJECT).bit} [current_hw_device]" >> program.tcl
echo "program_hw_devices [current_hw_device]" >> program.tcl
echo "exit" >> program.tcl
vivado -nojournal -nolog -mode batch -source program.tcl
$(PROJECT).mcs $(PROJECT).prm: $(PROJECT).bit
echo "write_cfgmem -force -format mcs -size 16 -interface SPIx4 -loadbit {up 0x0000000 $*.bit} -checksum -file $*.mcs" > generate_mcs.tcl
echo "exit" >> generate_mcs.tcl
vivado -nojournal -nolog -mode batch -source generate_mcs.tcl
mkdir -p rev
COUNT=100; \
while [ -e rev/$*_rev$$COUNT.bit ]; \
do COUNT=$$((COUNT+1)); done; \
COUNT=$$((COUNT-1)); \
for x in .mcs .prm; \
do cp $*$$x rev/$*_rev$$COUNT$$x; \
echo "Output: rev/$*_rev$$COUNT$$x"; done;

132
rtl/sampler/tests/sampler_main_tb.sv Normal file
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`timescale 1ns / 1ps
module sampler_tb;
parameter DATA_WIDTH = 12;
parameter PROCESS_MODE = 0;
parameter CLK_PERIOD = 15.3846;
parameter TEST_NUM = 1000;
logic clk;
logic rst;
logic [DATA_WIDTH-1:0] data_in;
logic out_of_range;
logic [DATA_WIDTH-1:0] m_axis_tdata;
logic m_axis_tvalid;
integer errors = 0;
sampler #(
.DATA_WIDTH(DATA_WIDTH),
.PROCESS_MODE(PROCESS_MODE)
) dut (
.clk_in(clk),
.rst(rst),
.data_in(data_in),
.out_of_range(out_of_range),
.m_axis_tdata(m_axis_tdata),
.m_axis_tvalid(m_axis_tvalid)
);
initial begin
clk = 0;
forever #(CLK_PERIOD/2) clk = ~clk;
end
function automatic [DATA_WIDTH-1:0] ref_convert(input [DATA_WIDTH-1:0] din);
if (PROCESS_MODE == 0)
return din;
else if (din == {1'b1, {(DATA_WIDTH-1){1'b0}}})
return din;
else
return din[DATA_WIDTH-1] ?
{1'b1, (~din[DATA_WIDTH-2:0] + 1'b1)} :
din;
endfunction
task send(input [DATA_WIDTH-1:0] word, input bit oor);
@(posedge clk);
data_in <= word;
out_of_range <= oor;
endtask
logic [DATA_WIDTH-1:0] exp_d0, exp_d1, exp_d2;
logic oor_d0, oor_d1, oor_d2;
initial begin
$display("\n=== RANDOM SAMPLER TEST===\n");
rst = 1;
data_in = 0;
out_of_range = 0;
exp_d0 = 0;
exp_d1 = 0;
exp_d2 = 0;
oor_d0 = 1;
oor_d1 = 1;
oor_d2 = 1;
repeat(5) @(posedge clk);
rst = 0;
repeat(2) @(posedge clk);
repeat (TEST_NUM) begin
logic [DATA_WIDTH-1:0] rand_data;
bit rand_oor;
rand_data = $urandom_range(0, (1 << DATA_WIDTH) - 1);
rand_oor = ($urandom_range(0, 99) < 20);
@(negedge clk);
if (!oor_d2) begin
if (m_axis_tvalid !== 1) begin
$display("ERROR: valid=0");
errors++;
end
if (m_axis_tdata !== exp_d2) begin
$display("ERROR: data mismatch");
$display(" expected = %h", exp_d2);
$display(" got = %h", m_axis_tdata);
errors++;
end
end
send(rand_data, rand_oor);
exp_d2 = exp_d1;
exp_d1 = exp_d0;
exp_d0 = ref_convert(rand_data);
oor_d2 = oor_d1;
oor_d1 = oor_d0;
oor_d0 = rand_oor;
end
@(posedge clk);
if (!oor_d2) begin
if (m_axis_tdata !== exp_d2) begin
$display("ERROR: final mismatch");
$display(" expected = %h", exp_d2);
$display(" got = %h", m_axis_tdata);
errors++;
end
end
if (errors == 0)
$display("\n========== ALL PASSED ==========\n");
else
$display("\n========== FAILED: %0d errors ==========\n", errors);
$finish;
end
endmodule

0
rtl/sampler/tests/sampler_tests.sv
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12
scripts/vivado.mk
View File

@ -110,6 +110,13 @@ create_project.tcl: Makefile $(XCI_FILES) $(IP_TCL_FILES)
for x in $(XCI_FILES); do echo "import_ip $$x" >> $@; done
for x in $(IP_TCL_FILES); do echo "source $$x" >> $@; done
for x in $(CONFIG_TCL_FILES); do echo "source $$x" >> $@; done
if [ -n "$(TB_FILES)" ]; then \
echo "add_files -fileset sim_1 defines.v $(TB_FILES)" >> $@; \
echo "set_property top $(SIM_TOP) [get_filesets sim_1]" >> $@; \
echo "set_property top_lib xil_defaultlib [get_filesets sim_1]" >> $@; \
fi
echo "update_compile_order -fileset sources_1" >> $@
echo "update_compile_order -fileset sim_1" >> $@
# source config TCL scripts if any source file has changed
update_config.tcl: $(CONFIG_TCL_FILES) $(SYN_FILES) $(INC_FILES) $(XDC_FILES)
@ -170,12 +177,11 @@ gen_ip:
sim: $(PROJECT).xpr gen_ip
echo "open_project $(PROJECT).xpr" > run_sim.tcl
echo "add_files -fileset sim_1 $(TB_FILES)" >> run_sim.tcl
echo "set_property top $(SIM_TOP) [get_filesets sim_1]" >> run_sim.tcl
echo "update_compile_order -fileset sources_1" >> run_sim.tcl
echo "update_compile_order -fileset sim_1" >> run_sim.tcl
echo "launch_simulation" >> run_sim.tcl
echo "run all" >> run_sim.tcl
echo "run 10000 us" >> run_sim.tcl
echo "quit" >> run_sim.tcl
vivado -mode batch -source run_sim.tcl
simclean:

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software/console.py Normal file
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import argparse
import socket
def run_debug(args, sock):
"""Debug run: send fixed values to test eth+ctrl on fpga."""
print(f"DEBUG MODE: ip={args.ip} send_port={args.send_port}")
dest = (args.ip, args.send_port)
# reset
sock.sendto(0x0f00.to_bytes(2), dest)
print("Sent soft_reset!")
# config data
sock.sendto(format_ctrl_data(0x12345678, 0x9abcdef0,
0x0bea, 0xdead, dac_bits=args.dac_bits), dest)
print("Config data sent!")
sock.sendto(0xf000.to_bytes(2), dest)
print("Sent start!")
def format_ctrl_data(pulse_width: int, pulse_period: int,
pulse_height: int, pulse_num: int, dac_bits: int = 16) -> bytes:
"""Format data packet for set_data command."""
output = bytearray()
output += 0b10001000.to_bytes(1, 'little')
# no negative please
assert pulse_width > 0, "pulse_width should be positive"
assert pulse_period > 0, "pulse_period should be positive"
assert pulse_num > 0, "pulse_num should be positive"
assert pulse_height > 0, "pulse_height should be positive"
# overflow check
assert pulse_width < 2**32-1, "pulse_width too high"
assert pulse_period < 2**32-1, "pulse_period too high"
assert pulse_num < 2**16-1, "pulse_num too high"
assert pulse_height < 2**dac_bits-1, "pulse_height too high"
output += pulse_width.to_bytes(4, 'little')
output += pulse_period.to_bytes(4, 'little')
output += pulse_num.to_bytes(2, 'little')
output += pulse_height.to_bytes(2, 'little')
assert len(output) == 13, "Config data should be 96 bits + 8 bit header"
return output
def verify_args(args):
"""check args are non zero and in bound, request from user if needed"""
if args.pulse_width == 0:
args.pulse_width = int(input("pulse_width: "))
if args.pulse_period == 0:
args.pulse_period = int(input("pulse_period: "))
if args.pulse_num == 0:
args.pulse_num = int(input("pulse_num: "))
if args.pulse_height == 0:
args.pulse_height = int(input("pulse_height: "))
def run(args, sock):
dest = (args.ip, args.send_port)
# reset
sock.sendto(0x0f00.to_bytes(2), dest)
# config data
sock.sendto(format_ctrl_data(args.pulse_width,
args.pulse_period,
args.pulse_height,
args.pulse_num,
dac_bits=args.dac_bits), dest)
sock.sendto(0xf000.to_bytes(2), dest)
print("Sent start!")
def main():
parser = argparse.ArgumentParser(
description="Консоль для рефлектометра"
)
parser.add_argument("--debug", action='store_true',
help="отладочная отправка пакета soft_reset, пакета с данными и пакета start")
parser.add_argument("--ip", type=str, default="192.168.0.2",
help="IP рефлектометра, по умолчанию 192.168.0.2")
parser.add_argument("--send-port", type=int, default=8080,
help="Порт для отправки команд")
parser.add_argument("--recv-port", type=int,
default=8080, help="Порт для приема данных")
parser.add_argument("--dac-bits", type=int, default=12,
help="Битность ЦАП (влияет на максимальный pulse_height)")
# передача параметров через аргументы
for arg in ("pulse_width", "pulse_period", "pulse_num", "pulse_height"):
parser.add_argument(f"--{arg}", type=int,
default=0, help=f"Задать {arg}")
args = parser.parse_args()
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
if args.debug:
run_debug(args, sock)
else:
verify_args(args)
run(args, sock)
sock.close()
if __name__ == "__main__":
main()