sw: add reset scale button

fix normalization
sw: fix reference and some options
2026-05-26 18:15:56 +03:00 · 2026-05-26 18:05:24 +03:00 · 2026-05-26 17:27:39 +03:00 · 2026-05-26 16:46:51 +03:00 · 2026-05-26 16:36:03 +03:00 · 2026-05-26 16:16:15 +03:00
60 changed files with 6642 additions and 975 deletions
--- a/.gitignore
+++ b/.gitignore
@ -23,3 +23,7 @@ create_project.tcl
 gen_ip.tcl
 defines.v
 run_sim.tcl
 *.bit
 *.xsa
 *.ltx
 *.bin
--- a/README.md
+++ b/README.md
@ -1,3 +1,10 @@
 # reflectometer_fpga_project
-Проект по разработке аппаратной вычислительной части для отпического рефлектометра для обнаружения утечек.
+Проект по разработке аппаратной вычислительной части для оптического рефлектометра для обнаружения утечек.
 ## Структура
 - constaints: констрейны под ПЛИСы
 - designs: разные сборные дизайны, включая полный проект
 - rtl: код блоков, в каждой папке есть src и tests
 - scripts: скрипты для сборки 
 - software: программные скрипты
--- a/constraints/ax7102.xdc
+++ b/constraints/ax7102.xdc
@ -0,0 +1,172 @@
 # === iostandard ===
 set_property CFGBVS VCCO [current_design]
 set_property CONFIG_VOLTAGE 3.3 [current_design]
 # === SPI flash config ===
 set_property BITSTREAM.CONFIG.SPI_BUSWIDTH 4 [current_design]
 set_property CONFIG_MODE SPIx4 [current_design]
 set_property BITSTREAM.CONFIG.CONFIGRATE 50 [current_design]
 # === clock config ===
 create_clock -period 5.000 [get_ports sys_clk_p]
 set_property IOSTANDARD DIFF_SSTL15 [get_ports sys_clk_p]
 set_property PACKAGE_PIN R4 [get_ports sys_clk_p]
 set_property PACKAGE_PIN T4 [get_ports sys_clk_n]
 set_property IOSTANDARD DIFF_SSTL15 [get_ports sys_clk_n]
 # === reset button ===
 set_property IOSTANDARD LVCMOS15 [get_ports rst_n]
 set_property PACKAGE_PIN T6 [get_ports rst_n]
 # === leds ===
 set_property IOSTANDARD LVCMOS33 [get_ports {led[*]}]
 set_property PACKAGE_PIN C17 [get_ports {led[0]}]
 set_property PACKAGE_PIN D17 [get_ports {led[1]}]
 set_property PACKAGE_PIN V20 [get_ports {led[2]}]
 set_property PACKAGE_PIN U20 [get_ports {led[3]}]
 # === 1Gb ethernet PHY ===
 set_property PACKAGE_PIN V10 [get_ports e_mdio]
 set_property IOSTANDARD LVCMOS33 [get_ports e_mdio]
 set_property PACKAGE_PIN W10 [get_ports e_mdc]
 set_property IOSTANDARD LVCMOS33 [get_ports e_mdc]
 set_property PULLTYPE PULLUP [get_ports e_mdc]
 set_property SLEW SLOW [get_ports e_mdio]
 set_property PULLTYPE PULLUP [get_ports e_mdio]
 # eth rx
 create_clock -period 8.000 -name rx_clk [get_ports e_rxc]
 set_property IOSTANDARD LVCMOS33 [get_ports e_rxc]
 set_property PACKAGE_PIN K18 [get_ports e_rxc]
 set_property IOSTANDARD LVCMOS33 [get_ports e_rxdv]
 set_property PACKAGE_PIN M22 [get_ports e_rxdv]
 set_property IOSTANDARD LVCMOS33 [get_ports e_rxer]
 set_property PACKAGE_PIN N19 [get_ports e_rxer]
 set_property IOSTANDARD LVCMOS33 [get_ports {e_rxd[*]}]
 set_property PACKAGE_PIN N22 [get_ports {e_rxd[0]}]
 set_property PACKAGE_PIN H18 [get_ports {e_rxd[1]}]
 set_property PACKAGE_PIN H17 [get_ports {e_rxd[2]}]
 set_property PACKAGE_PIN K19 [get_ports {e_rxd[3]}]
 set_property PACKAGE_PIN M21 [get_ports {e_rxd[4]}]
 set_property PACKAGE_PIN L21 [get_ports {e_rxd[5]}]
 set_property PACKAGE_PIN N20 [get_ports {e_rxd[6]}]
 set_property PACKAGE_PIN M20 [get_ports {e_rxd[7]}]
 # eth tx
 set_property IOSTANDARD LVCMOS33 [get_ports e_txc]
 set_property PACKAGE_PIN J17 [get_ports e_txc]
 set_property IOSTANDARD LVCMOS33 [get_ports e_gtxc]
 set_property PACKAGE_PIN L18 [get_ports e_gtxc]
 set_property IOSTANDARD LVCMOS33 [get_ports e_txen]
 set_property PACKAGE_PIN M16 [get_ports e_txen]
 set_property IOSTANDARD LVCMOS33 [get_ports e_txer]
 set_property PACKAGE_PIN M13 [get_ports e_txer]
 set_property IOSTANDARD LVCMOS33 [get_ports {e_txd[*]}]
 set_property PACKAGE_PIN M15 [get_ports {e_txd[0]}]
 set_property PACKAGE_PIN L14 [get_ports {e_txd[1]}]
 set_property PACKAGE_PIN K16 [get_ports {e_txd[2]}]
 set_property PACKAGE_PIN L16 [get_ports {e_txd[3]}]
 set_property PACKAGE_PIN K17 [get_ports {e_txd[4]}]
 set_property PACKAGE_PIN L20 [get_ports {e_txd[5]}]
 set_property PACKAGE_PIN L19 [get_ports {e_txd[6]}]
 set_property PACKAGE_PIN L13 [get_ports {e_txd[7]}]
 set_property IOSTANDARD LVCMOS33 [get_ports e_reset]
 set_property PACKAGE_PIN L15 [get_ports e_reset]
 create_clock -period 8.000 -name tx_clk [get_ports e_gtxc]
 set_false_path -reset_path -from [get_clocks sys_clk_p] -to [get_clocks rx_clk]
 # === ADC an9238 (J4 header) ===
 set_property PACKAGE_PIN K14 [get_ports ch2_clk]
 set_property PACKAGE_PIN K13 [get_ports {ch2_data[0]}]
 set_property PACKAGE_PIN H14 [get_ports {ch2_data[1]}]
 set_property PACKAGE_PIN J14 [get_ports {ch2_data[2]}]
 set_property PACKAGE_PIN H15 [get_ports {ch2_data[3]}]
 set_property PACKAGE_PIN J15 [get_ports {ch2_data[4]}]
 set_property PACKAGE_PIN G13 [get_ports {ch2_data[5]}]
 set_property PACKAGE_PIN H13 [get_ports {ch2_data[6]}]
 set_property PACKAGE_PIN J21 [get_ports {ch2_data[7]}]
 set_property PACKAGE_PIN J20 [get_ports {ch2_data[8]}]
 set_property PACKAGE_PIN G16 [get_ports {ch2_data[9]}]
 set_property PACKAGE_PIN G15 [get_ports {ch2_data[10]}]
 set_property PACKAGE_PIN H19 [get_ports {ch2_data[11]}]
 set_property PACKAGE_PIN J19 [get_ports ch2_otr]
 set_property PACKAGE_PIN J16 [get_ports ch1_data[1]]
 set_property PACKAGE_PIN F15 [get_ports ch1_data[0]]
 set_property PACKAGE_PIN K22 [get_ports ch1_data[3]]
 set_property PACKAGE_PIN K21 [get_ports ch1_data[2]]
 set_property PACKAGE_PIN H22 [get_ports ch1_data[5]]
 set_property PACKAGE_PIN J22 [get_ports ch1_data[4]]
 set_property PACKAGE_PIN G20 [get_ports ch1_data[7]]
 set_property PACKAGE_PIN H20 [get_ports ch1_data[6]]
 set_property PACKAGE_PIN G22 [get_ports ch1_data[9]]
 set_property PACKAGE_PIN G21 [get_ports ch1_data[8]]
 set_property PACKAGE_PIN D22 [get_ports ch1_data[11]]
 set_property PACKAGE_PIN E22 [get_ports ch1_data[10]]
 set_property PACKAGE_PIN D21 [get_ports ch1_clk]
 set_property PACKAGE_PIN E21 [get_ports ch1_otr]
 set_property IOSTANDARD LVCMOS33 [get_ports ch2_clk]
 set_property IOSTANDARD LVCMOS33 [get_ports {ch2_data[*]}]
 set_property IOSTANDARD LVCMOS33 [get_ports ch2_otr]
 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]
 # === DAC an9767(J5 header) ===
 set_property PACKAGE_PIN F13  [get_ports {da1_clk}]
 set_property PACKAGE_PIN F14  [get_ports {da1_wrt}]
 set_property PACKAGE_PIN AB15 [get_ports {da1_data[13]}]
 set_property PACKAGE_PIN AA15 [get_ports {da1_data[12]}]
 set_property PACKAGE_PIN AA14 [get_ports {da1_data[11]}]
 set_property PACKAGE_PIN Y13  [get_ports {da1_data[10]}]
 set_property PACKAGE_PIN AB17 [get_ports {da1_data[9]}]
 set_property PACKAGE_PIN AB16 [get_ports {da1_data[8]}]
 set_property PACKAGE_PIN AA16 [get_ports {da1_data[7]}]
 set_property PACKAGE_PIN Y16  [get_ports {da1_data[6]}]
 set_property PACKAGE_PIN AB12 [get_ports {da1_data[5]}]
 set_property PACKAGE_PIN AB11 [get_ports {da1_data[4]}]
 set_property PACKAGE_PIN Y14  [get_ports {da1_data[3]}]
 set_property PACKAGE_PIN W14  [get_ports {da1_data[2]}]
 set_property PACKAGE_PIN C19  [get_ports {da1_data[1]}]
 set_property PACKAGE_PIN C18  [get_ports {da1_data[0]}]
 set_property IOSTANDARD LVCMOS33 [get_ports {da1_data[*]}]
 set_property IOSTANDARD LVCMOS33 [get_ports {da1_wrt}]
 set_property IOSTANDARD LVCMOS33 [get_ports {da1_clk}]
 set_property PACKAGE_PIN E14 [get_ports da2_clk]
 set_property PACKAGE_PIN E13 [get_ports da2_wrt]
 set_property PACKAGE_PIN D15 [get_ports {da2_data[13]}]
 set_property PACKAGE_PIN D14 [get_ports {da2_data[12]}]
 set_property PACKAGE_PIN B13 [get_ports {da2_data[11]}]
 set_property PACKAGE_PIN C13 [get_ports {da2_data[10]}]
 set_property PACKAGE_PIN AB13 [get_ports {da2_data[9]}]
 set_property PACKAGE_PIN AA13 [get_ports {da2_data[8]}]
 set_property PACKAGE_PIN A19 [get_ports {da2_data[7]}]
 set_property PACKAGE_PIN A18 [get_ports {da2_data[6]}]
 set_property PACKAGE_PIN E18 [get_ports {da2_data[5]}]
 set_property PACKAGE_PIN F18 [get_ports {da2_data[4]}]
 set_property PACKAGE_PIN F20 [get_ports {da2_data[3]}]
 set_property PACKAGE_PIN F19 [get_ports {da2_data[2]}]
 set_property PACKAGE_PIN A20 [get_ports {da2_data[1]}]
 set_property PACKAGE_PIN B20 [get_ports {da2_data[0]}]
 set_property IOSTANDARD LVCMOS33 [get_ports da2_clk]
 set_property IOSTANDARD LVCMOS33 [get_ports da2_wrt]
 set_property IOSTANDARD LVCMOS33 [get_ports {da2_data[*]}]
--- a/constraints/ax7a035b.xdc
+++ b/constraints/ax7a035b.xdc
@ -58,20 +58,57 @@ 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]]
+set_property PACKAGE_PIN G22 [get_ports {ch2_data[0]}]
-set_property PACKAGE_PIN C22 [get_ports ch2_data[1]]
+set_property PACKAGE_PIN C22 [get_ports {ch2_data[1]}]
-set_property PACKAGE_PIN B22 [get_ports ch2_data[2]]
+set_property PACKAGE_PIN B22 [get_ports {ch2_data[2]}]
-set_property PACKAGE_PIN F19 [get_ports ch2_data[3]]
+set_property PACKAGE_PIN F19 [get_ports {ch2_data[3]}]
-set_property PACKAGE_PIN F20 [get_ports ch2_data[4]]
+set_property PACKAGE_PIN F20 [get_ports {ch2_data[4]}]
-set_property PACKAGE_PIN D20 [get_ports ch2_data[5]]
+set_property PACKAGE_PIN D20 [get_ports {ch2_data[5]}]
-set_property PACKAGE_PIN C20 [get_ports ch2_data[6]]
+set_property PACKAGE_PIN C20 [get_ports {ch2_data[6]}]
-set_property PACKAGE_PIN A18 [get_ports ch2_data[7]]
+set_property PACKAGE_PIN A18 [get_ports {ch2_data[7]}]
-set_property PACKAGE_PIN A19 [get_ports ch2_data[8]]
+set_property PACKAGE_PIN A19 [get_ports {ch2_data[8]}]
-set_property PACKAGE_PIN B20 [get_ports ch2_data[9]]
+set_property PACKAGE_PIN B20 [get_ports {ch2_data[9]}]
-set_property PACKAGE_PIN A20 [get_ports ch2_data[10]]
+set_property PACKAGE_PIN A20 [get_ports {ch2_data[10]}]
-set_property PACKAGE_PIN F18 [get_ports ch2_data[11]]
+set_property PACKAGE_PIN F18 [get_ports {ch2_data[11]}]
 set_property PACKAGE_PIN E18 [get_ports ch2_otr]
 set_property PACKAGE_PIN C18 [get_ports ch1_data[1]]
 set_property PACKAGE_PIN C19 [get_ports ch1_data[0]]
@ -95,30 +132,9 @@ 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}]
+# 1 bit DAC)))
-
+set_property PACKAGE_PIN E17 [get_ports debug_dac]
-# === DAC an9767 (J13 header) ===
+set_property IOSTANDARD LVCMOS33 [get_ports debug_dac]
-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}]
--- a/designs/README.md
+++ b/designs/README.md
@ -1,3 +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.
+- adc_dac_synchronizer: проект для тестирования и отладки связки сэмплер + контроллер + генератор, проверки синхронизации между импульсами.
 - reflectometer_base: базовый проект рефлектометра без внешних интерфейсов, только I/O через AXI Stream.
 - reflectometer_prototype: тестовый проект под AX7102 с управлением и отправкой данных по ethernet.
--- a/designs/adc_dac_synchoronizer/Makefile
+++ b/designs/adc_dac_synchoronizer/Makefile
@ -0,0 +1,56 @@
 # SPDX-License-Identifier: MIT
 #
 # Copyright (c) 2025 FPGA Ninja, LLC
 #
 # Authors:
 # - Alex Forencich
 #
 # FPGA settings
 FPGA_PART = xc7a100tfgg484-2
 FPGA_TOP = sync_top
 FPGA_ARCH = artix7
 RTL_DIR = ../../rtl
 include ../../scripts/vivado.mk
 SYN_FILES += $(sort $(shell find ../../rtl/sampler/src -type f -name '*.sv'))
 SYN_FILES += $(sort $(shell find ../../rtl/generator/src -type f -name '*.sv'))
 SYN_FILES += sync_top.sv
 XCI_FILES += $(sort $(shell find ip/ -type f -name '*.xci'))
 XDC_FILES += ../../constraints/ax7102.xdc
 XDC_FILES += debug.xdc
 SYN_FILES += tb_sync_top.sv
 SIM_TOP = tb_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;
--- a/designs/adc_dac_synchoronizer/debug.xdc
+++ b/designs/adc_dac_synchoronizer/debug.xdc
@ -0,0 +1,10 @@
 # Primary clocks
 create_clock -name eth_clk -period 8.000  [get_ports dac_clk_in]
 create_clock -name acc_clk -period 15.385  [get_ports adc_clk_in]
 # Asynchronous clock groups
 set_clock_groups -name ASYNC_ETH_ACC -asynchronous \
    -group [get_clocks eth_clk] \
    -group [get_clocks acc_clk]
--- a/designs/adc_dac_synchoronizer/sync_top.sv
+++ b/designs/adc_dac_synchoronizer/sync_top.sv
@ -0,0 +1,136 @@
 `timescale 1ns / 1ps
 module sync_top
 #(
    parameter int unsigned DAC_DATA_WIDTH = 14,
    parameter int unsigned ADC_DATA_WIDTH = 12,
    parameter int unsigned PACK_FACTOR    = 1,
    parameter int unsigned PROCESS_MODE   = 0
 )
 (
    input  adc_clk_in,
    input  adc_rst,
    input  dac_clk_in,
    input  dac_rst,
    input  dac_start,
    input  [31:0]                 pulse_width,
    input  [31:0]                 pulse_period,
    input  [DAC_DATA_WIDTH-1:0]   pulse_height,
    input  [15:0]                 pulse_num,
    input  [31:0]                 smp_num,
    output logic [ADC_DATA_WIDTH*PACK_FACTOR-1:0] m_axis_tdata,
    output logic                                  m_axis_tvalid
 );
    //------------------------------------------------------------
    // Internal signals
    //------------------------------------------------------------
   (* MARK_DEBUG="true" *) logic sample_req;
   (* MARK_DEBUG="true" *) logic sample_req_sync1;
   (* MARK_DEBUG="true" *) logic sample_req_sync2;
   (* MARK_DEBUG="true" *) logic sample_req_sync3;
   (* MARK_DEBUG="true" *) logic sample_done;
   (* MARK_DEBUG="true" *) logic sample_done_sync1;
   (* MARK_DEBUG="true" *) logic sample_done_sync2;
   (* MARK_DEBUG="true" *) logic sample_done_sync3;
   (* MARK_DEBUG="true" *) logic pulse;
   (* MARK_DEBUG="true" *) logic [DAC_DATA_WIDTH-1:0] pulse_height_out;
    //------------------------------------------------------------
    // Simple DAC -> ADC test source
    //
    // generator output is directly connected to sampler input
    // with width truncation:
    //
    // pulse_height_out[13:0] -> data_in[11:0]
    //------------------------------------------------------------
  (* MARK_DEBUG="true" *)  logic [ADC_DATA_WIDTH-1:0] data_in;
  (* MARK_DEBUG="true" *)  logic out_of_range;
    assign data_in      = pulse_height_out[ADC_DATA_WIDTH-1:0];
    assign out_of_range = 1'b0;
    //------------------------------------------------------------
    // DAC -> ADC CDC
    //------------------------------------------------------------
    always_ff @(posedge adc_clk_in or posedge adc_rst) begin
        if (adc_rst) begin
            sample_req <= 1'b0;
            sample_req_sync2  <= 1'b0;
            sample_req_sync3 <= 1'b0;
        end
        else begin
            sample_req_sync2 <= sample_req_sync1;
            sample_req_sync3  <= sample_req_sync2;
            sample_req <= sample_req_sync3;
        end
    end
    //------------------------------------------------------------
    // ADC -> DAC CDC
    //------------------------------------------------------------
    always_ff @(posedge dac_clk_in or posedge dac_rst) begin
        if (dac_rst) begin
            sample_done <= 1'b0;
            sample_done_sync2 <= 1'b0;
            sample_done_sync3 <= 1'b0;
        end
        else begin
            sample_done_sync2 <= sample_done_sync1;
            sample_done_sync3 <= sample_done_sync2;
            sample_done <= sample_done_sync3;
        end
    end
    //------------------------------------------------------------
    // Generator
    //------------------------------------------------------------
    generator #(
        .DATA_WIDTH(DAC_DATA_WIDTH)
    ) generator_inst (
        .clk_in(dac_clk_in),
        .rst(dac_rst),
        .start(dac_start),
        .pulse_width(pulse_width),
        .pulse_period(pulse_period),
        .pulse_height(pulse_height),
        .pulse_num(pulse_num),
        .sample_done(sample_done),
        .pulse(pulse),
        .pulse_height_out(pulse_height_out),
        .sample_req(sample_req_sync1)
    );
    //------------------------------------------------------------
    // Sampler
    //------------------------------------------------------------
    sampler #(
        .DATA_WIDTH(ADC_DATA_WIDTH),
        .PACK_FACTOR(PACK_FACTOR),
        .PROCESS_MODE(PROCESS_MODE)
    ) sampler_inst (
        .clk_in(adc_clk_in),
        .rst(adc_rst),
        .data_in(data_in),
        .out_of_range(out_of_range),
        .smp_num(smp_num),
        .sample_req(sample_req),
        .m_axis_tdata(m_axis_tdata),
        .m_axis_tvalid(m_axis_tvalid),
        .sample_done(sample_done_sync1)
    );
 endmodule
--- a/designs/adc_dac_synchoronizer/tb_sync_top.sv
+++ b/designs/adc_dac_synchoronizer/tb_sync_top.sv
@ -0,0 +1,169 @@
 `timescale 1ns / 1ps
 module tb_top;
    localparam DAC_DATA_WIDTH = 14;
    localparam ADC_DATA_WIDTH = 12;
    localparam PACK_FACTOR    = 1;
    localparam PROCESS_MODE   = 0;
    //------------------------------------------------------------
    // clocks / reset
    //------------------------------------------------------------
    logic adc_clk_in;
    logic adc_rst;
    logic dac_clk_in;
    logic dac_rst;
    //------------------------------------------------------------
    // control
    //------------------------------------------------------------
    logic dac_start;
    logic [31:0] pulse_width;
    logic [31:0] pulse_period;
    logic [DAC_DATA_WIDTH-1:0] pulse_height;
    logic [15:0] pulse_num;
    logic [31:0] smp_num;
    //------------------------------------------------------------
    // outputs
    //------------------------------------------------------------
    logic [ADC_DATA_WIDTH*PACK_FACTOR-1:0] m_axis_tdata;
    logic                                  m_axis_tvalid;
    integer valid_count;
    //------------------------------------------------------------
    // DUT
    //------------------------------------------------------------
    sync_top #(
        .DAC_DATA_WIDTH(DAC_DATA_WIDTH),
        .ADC_DATA_WIDTH(ADC_DATA_WIDTH),
        .PACK_FACTOR(PACK_FACTOR),
        .PROCESS_MODE(PROCESS_MODE)
    ) dut (
        .adc_clk_in(adc_clk_in),
        .adc_rst(adc_rst),
        .dac_clk_in(dac_clk_in),
        .dac_rst(dac_rst),
        .dac_start(dac_start),
        .pulse_width(pulse_width),
        .pulse_period(pulse_period),
        .pulse_height(pulse_height),
        .pulse_num(pulse_num),
        .smp_num(smp_num),
        .m_axis_tdata(m_axis_tdata),
        .m_axis_tvalid(m_axis_tvalid)
    );
    //------------------------------------------------------------
    // ADC clock
    //------------------------------------------------------------
    initial begin
        adc_clk_in = 1'b0;
        forever #5 adc_clk_in = ~adc_clk_in;   // 100 MHz
    end
    //------------------------------------------------------------
    // DAC clock
    //------------------------------------------------------------
    initial begin
        dac_clk_in = 1'b0;
        forever #8 dac_clk_in = ~dac_clk_in;   // slower domain
    end
    //------------------------------------------------------------
    // monitor output stream
    //------------------------------------------------------------
    always @(posedge adc_clk_in) begin
        if (m_axis_tvalid) begin
            valid_count = valid_count + 1;
            $display("[%0t] VALID: data=%0d",
                     $time,
                     m_axis_tdata);
        end
    end
    //------------------------------------------------------------
    // test
    //------------------------------------------------------------
    initial begin
        adc_rst      = 1'b1;
        dac_rst      = 1'b1;
        dac_start    = 1'b0;
        pulse_width  = 0;
        pulse_period = 0;
        pulse_height = 0;
        pulse_num    = 0;
        smp_num      = 0;
        valid_count  = 0;
        //--------------------------------------------------------
        // reset
        //--------------------------------------------------------
        repeat (10) @(posedge adc_clk_in);
        repeat (10) @(posedge dac_clk_in);
        adc_rst = 1'b0;
        dac_rst = 1'b0;
        repeat (5) @(posedge dac_clk_in);
        //--------------------------------------------------------
        // config
        //--------------------------------------------------------
        pulse_width  = 32'd3;
        pulse_period = 32'd8;
        pulse_height = 14'd200;
        pulse_num    = 16'd4;
        smp_num      = 32'd8;
        //--------------------------------------------------------
        // start
        //--------------------------------------------------------
        @(posedge dac_clk_in);
        dac_start = 1'b1;
        @(posedge dac_clk_in);
        dac_start = 1'b0;
        $display("==================================");
        $display("TEST START");
        $display("==================================");
        //--------------------------------------------------------
        // wait
        //--------------------------------------------------------
        repeat (600) @(posedge adc_clk_in);
        //--------------------------------------------------------
        // check
        //--------------------------------------------------------
        if (valid_count > 0) begin
            $display("==================================");
            $display("TEST PASSED");
            $display("valid_count = %0d", valid_count);
            $display("==================================");
        end
        else begin
            $display("==================================");
            $display("TEST FAILED");
            $display("No valid output detected");
            $display("==================================");
        end
        $finish;
    end
 endmodule
--- a/designs/eth_ctrl_debug/README.md
+++ b/designs/eth_ctrl_debug/README.md
@ -1,7 +0,0 @@
 # 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
--- a/designs/eth_ctrl_debug/debug.xdc
+++ b/designs/eth_ctrl_debug/debug.xdc
@ -1,147 +0,0 @@
 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]
--- a/designs/eth_ctrl_debug/eth_ctrl_debug.sv
+++ b/designs/eth_ctrl_debug/eth_ctrl_debug.sv
@ -1,298 +0,0 @@
 `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
--- a/designs/reflectometer_base/Makefile
+++ b/designs/reflectometer_base/Makefile
@ -7,8 +7,8 @@
 #
 # FPGA settings
-FPGA_PART = xc7a35tfgg484-1
+FPGA_PART = xc7a100tfgg484-2
-FPGA_TOP = eth_ctrl_debug_top
+FPGA_TOP = reflectometer_top
 FPGA_ARCH = artix7
 RTL_DIR = ../../rtl
@ -16,13 +16,13 @@ RTL_DIR = ../../rtl
 include ../../scripts/vivado.mk
-SYN_FILES += eth_ctrl_debug.sv
+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 += ../../constraints/ax7102.xdc
 XDC_FILES += debug.xdc
--- a/designs/reflectometer_base/debug.xdc
+++ b/designs/reflectometer_base/debug.xdc
@ -0,0 +1 @@
 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]
--- a/designs/reflectometer_base/ip/clk_wiz_ctrl_inst.xci
+++ b/designs/reflectometer_base/ip/clk_wiz_ctrl_inst.xci
@ -4,7 +4,7 @@
    "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",
+    "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" } ],
@ -84,7 +84,7 @@
        "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_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" } ],
@ -154,9 +154,9 @@
        "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_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": "4.875", "value_src": "user", "resolve_type": "user", "format": "float", "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" } ],
@ -167,11 +167,11 @@
        "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_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": "15", "value_src": "user", "resolve_type": "user", "format": "long", "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" } ],
@ -245,10 +245,10 @@
        "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_JITTER": [ { "value": "162.582", "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" } ],
+        "CLKOUT1_PHASE_ERROR": [ { "value": "137.238", "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" } ],
+        "CLKOUT2_JITTER": [ { "value": "185.296", "value_src": "user", "resolve_type": "user", "format": "float", "usage": "all" } ],
-        "CLKOUT2_PHASE_ERROR": [ { "value": "87.159", "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" } ],
@ -338,14 +338,14 @@
        "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" } ],
+        "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__65.00000______0.000______50.0______117.878_____87.159", "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": "130.000", "resolve_type": "generated", "format": "float", "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" } ],
@ -366,8 +366,8 @@
        "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_CLKOUT1_OUT_FREQ": [ { "value": "125.00000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
-        "C_CLKOUT2_OUT_FREQ": [ { "value": "65.00000", "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" } ],
        "C_CLKOUT5_OUT_FREQ": [ { "value": "100.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
@ -398,18 +398,18 @@
        "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" } ],
+        "C_MMCM_CLKFBOUT_MULT_F": [ { "value": "16.875", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKIN1_PERIOD": [ { "value": "5.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "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" } ],
        "C_MMCM_CLOCK_HOLD": [ { "value": "FALSE", "resolve_type": "generated", "format": "bool", "usage": "all" } ],
        "C_MMCM_COMPENSATION": [ { "value": "ZHOLD", "resolve_type": "generated", "usage": "all" } ],
-        "C_MMCM_DIVCLK_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
+        "C_MMCM_DIVCLK_DIVIDE": [ { "value": "4", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_REF_JITTER1": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_REF_JITTER2": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "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" } ],
+        "C_MMCM_CLKOUT0_DIVIDE_F": [ { "value": "6.750", "resolve_type": "generated", "format": "float", "usage": "all" } ],
-        "C_MMCM_CLKOUT1_DIVIDE": [ { "value": "15", "resolve_type": "generated", "format": "long", "usage": "all" } ],
+        "C_MMCM_CLKOUT1_DIVIDE": [ { "value": "13", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
@ -540,12 +540,12 @@
        "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_DIVIDE2_AUTO": [ { "value": "1.9259259259259258", "resolve_type": "generated", "usage": "all" } ],
-        "C_DIVIDE3_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
+        "C_DIVIDE3_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
-        "C_DIVIDE4_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
+        "C_DIVIDE4_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
-        "C_DIVIDE5_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
+        "C_DIVIDE5_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
-        "C_DIVIDE6_AUTO": [ { "value": "0.13333333333333333", "resolve_type": "generated", "usage": "all" } ],
+        "C_DIVIDE6_AUTO": [ { "value": "0.14814814814814814", "resolve_type": "generated", "usage": "all" } ],
-        "C_DIVIDE7_AUTO": [ { "value": "0.13333333333333333", "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" } ],
@ -566,8 +566,8 @@
        "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_CLKOUT0_ACTUAL_FREQ": [ { "value": "125.00000", "resolve_type": "generated", "usage": "all" } ],
-        "C_CLKOUT1_ACTUAL_FREQ": [ { "value": "65.00000", "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" } ],
@ -599,7 +599,7 @@
        "IPCONTEXT": [ { "value": "IP_Flow" } ],
        "IPREVISION": [ { "value": "16" } ],
        "MANAGED": [ { "value": "TRUE" } ],
-        "OUTPUTDIR": [ { "value": "../../../../eth_ctrl_debug_top.gen/sources_1/ip/clk_wiz_ctrl_inst" } ],
+        "OUTPUTDIR": [ { "value": "../../../../eth_generator_top.gen/sources_1/ip/clk_wiz_ctrl_inst" } ],
        "SELECTEDSIMMODEL": [ { "value": "" } ],
        "SHAREDDIR": [ { "value": "." } ],
        "SWVERSION": [ { "value": "2025.1" } ],
--- a/designs/reflectometer_base/reflectometer.sv
+++ b/designs/reflectometer_base/reflectometer.sv
@ -0,0 +1,320 @@
 `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 ZERO_LEVEL = 8192,
    parameter ACCUM_WIDTH = 32,
    parameter N_MAX = 4096,
    parameter WINDOW_SIZE = 65,
    parameter PACKET_SIZE = 1024
 )(
    input               sys_clk,
    input               rst_n,
    output [3:0]        led,
    input gmii_rx_clk,
    input gmii_tx_clk,
    (* MARK_DEBUG="true" *) output logic [7:0]  s_axis_tx_tdata,
    (* MARK_DEBUG="true" *) output logic        s_axis_tx_tvalid,
    (* MARK_DEBUG="true" *) input  logic        s_axis_tx_tready,
    (* MARK_DEBUG="true" *) output logic        s_axis_tx_tlast,
    (* MARK_DEBUG="true" *) input  wire [7:0]  m_axis_rx_tdata,
    (* MARK_DEBUG="true" *) input  wire        m_axis_rx_tvalid,
    (* MARK_DEBUG="true" *) input  wire        m_axis_rx_tlast,
    (* MARK_DEBUG="true" *) output wire        m_axis_rx_tready,
    // axis_mac
    (* MARK_DEBUG="true" *) input logic       req_ready,
    (* MARK_DEBUG="true" *) output logic       send_req,
    // DAC
    output wire p2_clk,
    (* MARK_DEBUG="true" *) output     wire [DAC_DATA_WIDTH-1:0]       p2_data,
    (* MARK_DEBUG="true" *) output     wire p2_wrt,
    // ADC
    output ch2_clk,
    (* MARK_DEBUG="true" *) input [ADC_DATA_WIDTH-1:0] ch2_data,
    input ch2_otr
 );
    // -------------------------------------------------------------------------
    // 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)
    );
    // -------------------------------------------------------------------------
    // axis_mac interface
    // RX stream from Ethernet goes into controller
    // TX stream is unused for now
    // -------------------------------------------------------------------------
    // -------------------------------------------------------------------------
    // Controller reset
    // Use both external reset and clk_wiz lock
    // -------------------------------------------------------------------------
    wire ctrl_rst_n = rst_n & clk_wiz_locked;
    (* 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     (m_axis_rx_tready),
        .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
    // -------------------------------------------------------------------------
   (* MARK_DEBUG="true" *) logic sample_req;
   (* MARK_DEBUG="true" *) logic sample_req_sync1;
   (* MARK_DEBUG="true" *) logic sample_req_sync2;
   (* MARK_DEBUG="true" *) logic sample_req_sync3;
   (* MARK_DEBUG="true" *) logic sample_done;
   (* MARK_DEBUG="true" *) logic sample_done_sync1;
   (* MARK_DEBUG="true" *) logic sample_done_sync2;
   (* MARK_DEBUG="true" *) logic sample_done_sync3;
   //------------------------------------------------------------
    // DAC -> ADC CDC
    //------------------------------------------------------------
    always_ff @(posedge adc_clk or posedge adc_rst) begin
        if (adc_rst) begin
            sample_req <= 1'b0;
            sample_req_sync2  <= 1'b0;
            sample_req_sync3 <= 1'b0;
        end
        else begin
            sample_req_sync2 <= sample_req_sync1;
            sample_req_sync3  <= sample_req_sync2;
            sample_req <= sample_req_sync3;
        end
    end
     //------------------------------------------------------------
    // ADC -> DAC CDC
    //------------------------------------------------------------
    always_ff @(posedge dac_clk or posedge dac_rst) begin
        if (dac_rst) begin
            sample_done <= 1'b0;
            sample_done_sync2 <= 1'b0;
            sample_done_sync3 <= 1'b0;
        end
        else begin
            sample_done_sync2 <= sample_done_sync1;
            sample_done_sync3 <= sample_done_sync2;
            sample_done <= sample_done_sync3;
        end
    end
     //------------------------------------------------------------
    // Generator
    //------------------------------------------------------------
    generator #(
        .DATA_WIDTH(DAC_DATA_WIDTH),
        .ZERO_LEVEL(ZERO_LEVEL)
    ) 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),
        .sample_done(sample_done),
        .sample_req(sample_req_sync1)
    );
    wire ch2_clk_oddr;
    ODDR #(
        .DDR_CLK_EDGE("SAME_EDGE"),
        .INIT(1'b0),
        .SRTYPE("SYNC")
    ) ODDR_ch2_clk (
        .Q (ch2_clk_oddr),
        .C (adc_clk),
        .CE(1'b1),
        .D1(1'b1),
        .D2(1'b0),
        .R (1'b0),
        .S (1'b0)
    );
    OBUF OBUF_ch2_clk (
        .I(ch2_clk_oddr),
        .O(ch2_clk)
    );
    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
    // -------------------------------------------------------------------------
    (* MARK_DEBUG="true" *) logic [ADC_DATA_WIDTH*PACK_FACTOR-1:0]  accum_m_axis_tdata;
    (* MARK_DEBUG="true" *) 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(ch2_data),
       .out_of_range(ch2_otr),
       .m_axis_tdata(accum_m_axis_tdata),
       .m_axis_tvalid(acum_m_axis_tvalid),
        .smp_num(adc_pulse_period),
        .sample_req(sample_req),
        .sample_done(sample_done_sync1)
    );
    // -------------------------------------------------------------------------
    // 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_tx_clk),
        .req_ready(req_ready),
        .send_req(send_req),
        .m_axis_tdata(s_axis_tx_tdata),
        .m_axis_tvalid(s_axis_tx_tvalid),
        .m_axis_tready(s_axis_tx_tready),
        .m_axis_tlast(s_axis_tx_tlast),
        .finish(finish)
    );
    // -------------------------------------------------------------------------
    // Simple LED status
    // -------------------------------------------------------------------------
    assign led[0] = clk_wiz_locked;
    assign led[1] = m_axis_rx_tvalid;
    assign led[2] = dac_start;
 endmodule
--- a/designs/reflectometer_prototype/Makefile
+++ b/designs/reflectometer_prototype/Makefile
@ -0,0 +1,53 @@
 # SPDX-License-Identifier: MIT
 #
 # Copyright (c) 2025 FPGA Ninja, LLC
 #
 # Authors:
 # - Alex Forencich
 #
 # FPGA settings
 FPGA_PART = xc7a100tfgg484-2
 FPGA_TOP = prototype_top
 FPGA_ARCH = artix7
 RTL_DIR = ../../rtl
 include ../../scripts/vivado.mk
 SYN_FILES += prototype.sv
 SYN_FILES += ../reflectometer_base/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/ax7102.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;
--- a/designs/reflectometer_prototype/README.md
+++ b/designs/reflectometer_prototype/README.md
@ -0,0 +1,13 @@
 # Тестовый проект рефлектометра
 Проект состоит из AXIS Ethernet и основной части рефлектометра - генератора, сэмплера, контроллера и синхронизирующей логики. Разработан для AX7102, АЦП AN9238, ЦАП AD9767. Плата подключается по ethernet к компьютеру, IP должен быть 192.168.0.3 у компьютера, в ПЛИС установлен IP 192.168.0.2, после подключения должен пройти ARP и после этого можно начнить коммуникацию через консольку.
 ## Сборка
 ```make all``` - собрать все до битстрима
 ```make vivado``` - открыть проект в Vivado
 ## Управление
 Используйте software/console.py. Примеры:
 ```python3 console.py --pulse_width 3500 --pulse_period 20000 --pulse_height 15000 --pulse_num 550 --dac-bits 14```
 ```python3 console.py --pulse_width 15000 --pulse_period 20000 --pulse_height 1500 --pulse_num 550 --dac-bits 14```
--- a/designs/reflectometer_prototype/debug.xdc
+++ b/designs/reflectometer_prototype/debug.xdc
@ -0,0 +1,238 @@
 set_clock_groups -name ASYNC_UDP_CTRL -asynchronous -group [get_clocks rx_clk] -group [get_clocks clk_out1_clk_wiz_ctrl_inst] -group [get_clocks clk_out2_clk_wiz_ctrl_inst]
 connect_debug_port u_ila_0/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out2]]
 connect_debug_port u_ila_0/probe0 [get_nets [list {accumulator_top_dut/output_async_fifo/wr_state[0]} {accumulator_top_dut/output_async_fifo/wr_state[1]} {accumulator_top_dut/output_async_fifo/wr_state[2]}]]
 connect_debug_port u_ila_0/probe1 [get_nets [list {sampler_dut/smp_num_reg[0]} {sampler_dut/smp_num_reg[1]} {sampler_dut/smp_num_reg[2]} {sampler_dut/smp_num_reg[3]} {sampler_dut/smp_num_reg[4]} {sampler_dut/smp_num_reg[5]} {sampler_dut/smp_num_reg[6]} {sampler_dut/smp_num_reg[7]} {sampler_dut/smp_num_reg[8]} {sampler_dut/smp_num_reg[9]} {sampler_dut/smp_num_reg[10]} {sampler_dut/smp_num_reg[11]} {sampler_dut/smp_num_reg[12]} {sampler_dut/smp_num_reg[13]} {sampler_dut/smp_num_reg[14]} {sampler_dut/smp_num_reg[15]} {sampler_dut/smp_num_reg[16]} {sampler_dut/smp_num_reg[17]} {sampler_dut/smp_num_reg[18]} {sampler_dut/smp_num_reg[19]} {sampler_dut/smp_num_reg[20]} {sampler_dut/smp_num_reg[21]} {sampler_dut/smp_num_reg[22]} {sampler_dut/smp_num_reg[23]} {sampler_dut/smp_num_reg[24]} {sampler_dut/smp_num_reg[25]} {sampler_dut/smp_num_reg[26]} {sampler_dut/smp_num_reg[27]} {sampler_dut/smp_num_reg[28]} {sampler_dut/smp_num_reg[29]} {sampler_dut/smp_num_reg[30]} {sampler_dut/smp_num_reg[31]}]]
 connect_debug_port u_ila_0/probe2 [get_nets [list {adc_pulse_num[0]} {adc_pulse_num[1]} {adc_pulse_num[2]} {adc_pulse_num[3]} {adc_pulse_num[4]} {adc_pulse_num[5]} {adc_pulse_num[6]} {adc_pulse_num[7]} {adc_pulse_num[8]} {adc_pulse_num[9]} {adc_pulse_num[10]} {adc_pulse_num[11]} {adc_pulse_num[12]} {adc_pulse_num[13]} {adc_pulse_num[14]} {adc_pulse_num[15]}]]
 connect_debug_port u_ila_0/probe4 [get_nets [list {accum_m_axis_tdata[0]} {accum_m_axis_tdata[1]} {accum_m_axis_tdata[2]} {accum_m_axis_tdata[3]} {accum_m_axis_tdata[4]} {accum_m_axis_tdata[5]} {accum_m_axis_tdata[6]} {accum_m_axis_tdata[7]} {accum_m_axis_tdata[8]} {accum_m_axis_tdata[9]} {accum_m_axis_tdata[10]} {accum_m_axis_tdata[11]}]]
 connect_debug_port u_ila_0/probe5 [get_nets [list {sampler_dut/cnt_smp_num[0]} {sampler_dut/cnt_smp_num[1]} {sampler_dut/cnt_smp_num[2]} {sampler_dut/cnt_smp_num[3]} {sampler_dut/cnt_smp_num[4]} {sampler_dut/cnt_smp_num[5]} {sampler_dut/cnt_smp_num[6]} {sampler_dut/cnt_smp_num[7]} {sampler_dut/cnt_smp_num[8]} {sampler_dut/cnt_smp_num[9]} {sampler_dut/cnt_smp_num[10]} {sampler_dut/cnt_smp_num[11]} {sampler_dut/cnt_smp_num[12]} {sampler_dut/cnt_smp_num[13]} {sampler_dut/cnt_smp_num[14]} {sampler_dut/cnt_smp_num[15]} {sampler_dut/cnt_smp_num[16]} {sampler_dut/cnt_smp_num[17]} {sampler_dut/cnt_smp_num[18]} {sampler_dut/cnt_smp_num[19]} {sampler_dut/cnt_smp_num[20]} {sampler_dut/cnt_smp_num[21]} {sampler_dut/cnt_smp_num[22]} {sampler_dut/cnt_smp_num[23]} {sampler_dut/cnt_smp_num[24]} {sampler_dut/cnt_smp_num[25]} {sampler_dut/cnt_smp_num[26]} {sampler_dut/cnt_smp_num[27]} {sampler_dut/cnt_smp_num[28]} {sampler_dut/cnt_smp_num[29]} {sampler_dut/cnt_smp_num[30]} {sampler_dut/cnt_smp_num[31]}]]
 connect_debug_port u_ila_0/probe6 [get_nets [list {sampler_dut/data_converted[0]} {sampler_dut/data_converted[1]} {sampler_dut/data_converted[2]} {sampler_dut/data_converted[3]} {sampler_dut/data_converted[4]} {sampler_dut/data_converted[5]} {sampler_dut/data_converted[6]} {sampler_dut/data_converted[7]} {sampler_dut/data_converted[8]} {sampler_dut/data_converted[9]} {sampler_dut/data_converted[10]} {sampler_dut/data_converted[11]}]]
 connect_debug_port u_ila_0/probe7 [get_nets [list {adc_pulse_period[0]} {adc_pulse_period[1]} {adc_pulse_period[2]} {adc_pulse_period[3]} {adc_pulse_period[4]} {adc_pulse_period[5]} {adc_pulse_period[6]} {adc_pulse_period[7]} {adc_pulse_period[8]} {adc_pulse_period[9]} {adc_pulse_period[10]} {adc_pulse_period[11]} {adc_pulse_period[12]} {adc_pulse_period[13]} {adc_pulse_period[14]} {adc_pulse_period[15]} {adc_pulse_period[16]} {adc_pulse_period[17]} {adc_pulse_period[18]} {adc_pulse_period[19]} {adc_pulse_period[20]} {adc_pulse_period[21]} {adc_pulse_period[22]} {adc_pulse_period[23]} {adc_pulse_period[24]} {adc_pulse_period[25]} {adc_pulse_period[26]} {adc_pulse_period[27]} {adc_pulse_period[28]} {adc_pulse_period[29]} {adc_pulse_period[30]} {adc_pulse_period[31]}]]
 connect_debug_port u_ila_0/probe8 [get_nets [list {accumulator_top_dut/accum_main/wr_state[0]} {accumulator_top_dut/accum_main/wr_state[1]} {accumulator_top_dut/accum_main/wr_state[2]} {accumulator_top_dut/accum_main/wr_state[3]}]]
 connect_debug_port u_ila_0/probe9 [get_nets [list {accumulator_top_dut/accum_main/adder_dut/cnt[0]} {accumulator_top_dut/accum_main/adder_dut/cnt[1]} {accumulator_top_dut/accum_main/adder_dut/cnt[2]} {accumulator_top_dut/accum_main/adder_dut/cnt[3]} {accumulator_top_dut/accum_main/adder_dut/cnt[4]} {accumulator_top_dut/accum_main/adder_dut/cnt[5]} {accumulator_top_dut/accum_main/adder_dut/cnt[6]} {accumulator_top_dut/accum_main/adder_dut/cnt[7]} {accumulator_top_dut/accum_main/adder_dut/cnt[8]} {accumulator_top_dut/accum_main/adder_dut/cnt[9]} {accumulator_top_dut/accum_main/adder_dut/cnt[10]} {accumulator_top_dut/accum_main/adder_dut/cnt[11]} {accumulator_top_dut/accum_main/adder_dut/cnt[12]} {accumulator_top_dut/accum_main/adder_dut/cnt[13]} {accumulator_top_dut/accum_main/adder_dut/cnt[14]} {accumulator_top_dut/accum_main/adder_dut/cnt[15]}]]
 connect_debug_port u_ila_0/probe10 [get_nets [list acum_m_axis_tvalid]]
 connect_debug_port u_ila_0/probe11 [get_nets [list adc_rst]]
 connect_debug_port u_ila_0/probe12 [get_nets [list adc_start]]
 connect_debug_port u_ila_0/probe13 [get_nets [list sampler_dut/enable]]
 connect_debug_port u_ila_0/probe14 [get_nets [list finish]]
 connect_debug_port u_ila_0/probe15 [get_nets [list sampler_dut/out_of_range_reg]]
 connect_debug_port u_ila_0/probe16 [get_nets [list sample_req]]
 connect_debug_port u_ila_1/clk [get_nets [list clk_wiz_ctrl_inst/inst/clk_out1]]
 connect_debug_port u_ila_1/probe0 [get_nets [list {generator_inst/pulse_num_reg[0]} {generator_inst/pulse_num_reg[1]} {generator_inst/pulse_num_reg[2]} {generator_inst/pulse_num_reg[3]} {generator_inst/pulse_num_reg[4]} {generator_inst/pulse_num_reg[5]} {generator_inst/pulse_num_reg[6]} {generator_inst/pulse_num_reg[7]} {generator_inst/pulse_num_reg[8]} {generator_inst/pulse_num_reg[9]} {generator_inst/pulse_num_reg[10]} {generator_inst/pulse_num_reg[11]} {generator_inst/pulse_num_reg[12]} {generator_inst/pulse_num_reg[13]} {generator_inst/pulse_num_reg[14]} {generator_inst/pulse_num_reg[15]}]]
 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]}]]
 connect_debug_port u_ila_1/probe2 [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]}]]
 connect_debug_port u_ila_1/probe3 [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]}]]
 connect_debug_port u_ila_1/probe4 [get_nets [list {generator_inst/cnt_pulse_num[0]} {generator_inst/cnt_pulse_num[1]} {generator_inst/cnt_pulse_num[2]} {generator_inst/cnt_pulse_num[3]} {generator_inst/cnt_pulse_num[4]} {generator_inst/cnt_pulse_num[5]} {generator_inst/cnt_pulse_num[6]} {generator_inst/cnt_pulse_num[7]} {generator_inst/cnt_pulse_num[8]} {generator_inst/cnt_pulse_num[9]} {generator_inst/cnt_pulse_num[10]} {generator_inst/cnt_pulse_num[11]} {generator_inst/cnt_pulse_num[12]} {generator_inst/cnt_pulse_num[13]} {generator_inst/cnt_pulse_num[14]} {generator_inst/cnt_pulse_num[15]}]]
 connect_debug_port u_ila_1/probe5 [get_nets [list {generator_inst/pulse_width_reg[0]} {generator_inst/pulse_width_reg[1]} {generator_inst/pulse_width_reg[2]} {generator_inst/pulse_width_reg[3]} {generator_inst/pulse_width_reg[4]} {generator_inst/pulse_width_reg[5]} {generator_inst/pulse_width_reg[6]} {generator_inst/pulse_width_reg[7]} {generator_inst/pulse_width_reg[8]} {generator_inst/pulse_width_reg[9]} {generator_inst/pulse_width_reg[10]} {generator_inst/pulse_width_reg[11]} {generator_inst/pulse_width_reg[12]} {generator_inst/pulse_width_reg[13]} {generator_inst/pulse_width_reg[14]} {generator_inst/pulse_width_reg[15]} {generator_inst/pulse_width_reg[16]} {generator_inst/pulse_width_reg[17]} {generator_inst/pulse_width_reg[18]} {generator_inst/pulse_width_reg[19]} {generator_inst/pulse_width_reg[20]} {generator_inst/pulse_width_reg[21]} {generator_inst/pulse_width_reg[22]} {generator_inst/pulse_width_reg[23]} {generator_inst/pulse_width_reg[24]} {generator_inst/pulse_width_reg[25]} {generator_inst/pulse_width_reg[26]} {generator_inst/pulse_width_reg[27]} {generator_inst/pulse_width_reg[28]} {generator_inst/pulse_width_reg[29]} {generator_inst/pulse_width_reg[30]} {generator_inst/pulse_width_reg[31]}]]
 connect_debug_port u_ila_1/probe6 [get_nets [list {generator_inst/pulse_period_reg[0]} {generator_inst/pulse_period_reg[1]} {generator_inst/pulse_period_reg[2]} {generator_inst/pulse_period_reg[3]} {generator_inst/pulse_period_reg[4]} {generator_inst/pulse_period_reg[5]} {generator_inst/pulse_period_reg[6]} {generator_inst/pulse_period_reg[7]} {generator_inst/pulse_period_reg[8]} {generator_inst/pulse_period_reg[9]} {generator_inst/pulse_period_reg[10]} {generator_inst/pulse_period_reg[11]} {generator_inst/pulse_period_reg[12]} {generator_inst/pulse_period_reg[13]} {generator_inst/pulse_period_reg[14]} {generator_inst/pulse_period_reg[15]} {generator_inst/pulse_period_reg[16]} {generator_inst/pulse_period_reg[17]} {generator_inst/pulse_period_reg[18]} {generator_inst/pulse_period_reg[19]} {generator_inst/pulse_period_reg[20]} {generator_inst/pulse_period_reg[21]} {generator_inst/pulse_period_reg[22]} {generator_inst/pulse_period_reg[23]} {generator_inst/pulse_period_reg[24]} {generator_inst/pulse_period_reg[25]} {generator_inst/pulse_period_reg[26]} {generator_inst/pulse_period_reg[27]} {generator_inst/pulse_period_reg[28]} {generator_inst/pulse_period_reg[29]} {generator_inst/pulse_period_reg[30]} {generator_inst/pulse_period_reg[31]}]]
 connect_debug_port u_ila_1/probe7 [get_nets [list {generator_inst/cnt_period[0]} {generator_inst/cnt_period[1]} {generator_inst/cnt_period[2]} {generator_inst/cnt_period[3]} {generator_inst/cnt_period[4]} {generator_inst/cnt_period[5]} {generator_inst/cnt_period[6]} {generator_inst/cnt_period[7]} {generator_inst/cnt_period[8]} {generator_inst/cnt_period[9]} {generator_inst/cnt_period[10]} {generator_inst/cnt_period[11]} {generator_inst/cnt_period[12]} {generator_inst/cnt_period[13]} {generator_inst/cnt_period[14]} {generator_inst/cnt_period[15]} {generator_inst/cnt_period[16]} {generator_inst/cnt_period[17]} {generator_inst/cnt_period[18]} {generator_inst/cnt_period[19]} {generator_inst/cnt_period[20]} {generator_inst/cnt_period[21]} {generator_inst/cnt_period[22]} {generator_inst/cnt_period[23]} {generator_inst/cnt_period[24]} {generator_inst/cnt_period[25]} {generator_inst/cnt_period[26]} {generator_inst/cnt_period[27]} {generator_inst/cnt_period[28]} {generator_inst/cnt_period[29]} {generator_inst/cnt_period[30]} {generator_inst/cnt_period[31]}]]
 connect_debug_port u_ila_1/probe8 [get_nets [list dac_rst]]
 connect_debug_port u_ila_1/probe9 [get_nets [list dac_start]]
 connect_debug_port u_ila_1/probe10 [get_nets [list debug_dac_OBUF]]
 connect_debug_port u_ila_1/probe11 [get_nets [list generator_inst/enable]]
 connect_debug_port u_ila_1/probe12 [get_nets [list sample_done]]
 connect_debug_port u_ila_2/clk [get_nets [list rgmii_rxc_IBUF_BUFG]]
 connect_debug_port u_ila_2/probe0 [get_nets [list {accumulator_top_dut/output_async_fifo/rd_state[0]} {accumulator_top_dut/output_async_fifo/rd_state[1]} {accumulator_top_dut/output_async_fifo/rd_state[2]}]]
 connect_debug_port dbg_hub/clk [get_nets rgmii_rxc_IBUF_BUFG]
 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 reflectometer_inst/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 4 [get_debug_ports u_ila_0/probe0]
 connect_debug_port u_ila_0/probe0 [get_nets [list {reflectometer_inst/accumulator_top_dut/accum_main/wr_state[0]} {reflectometer_inst/accumulator_top_dut/accum_main/wr_state[1]} {reflectometer_inst/accumulator_top_dut/accum_main/wr_state[2]} {reflectometer_inst/accumulator_top_dut/accum_main/wr_state[3]}]]
 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 3 [get_debug_ports u_ila_0/probe1]
 connect_debug_port u_ila_0/probe1 [get_nets [list {reflectometer_inst/accumulator_top_dut/output_async_fifo/wr_state[0]} {reflectometer_inst/accumulator_top_dut/output_async_fifo/wr_state[1]} {reflectometer_inst/accumulator_top_dut/output_async_fifo/wr_state[2]}]]
 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 32 [get_debug_ports u_ila_0/probe2]
 connect_debug_port u_ila_0/probe2 [get_nets [list {reflectometer_inst/sampler_dut/cnt_smp_num[0]} {reflectometer_inst/sampler_dut/cnt_smp_num[1]} {reflectometer_inst/sampler_dut/cnt_smp_num[2]} {reflectometer_inst/sampler_dut/cnt_smp_num[3]} {reflectometer_inst/sampler_dut/cnt_smp_num[4]} {reflectometer_inst/sampler_dut/cnt_smp_num[5]} {reflectometer_inst/sampler_dut/cnt_smp_num[6]} {reflectometer_inst/sampler_dut/cnt_smp_num[7]} {reflectometer_inst/sampler_dut/cnt_smp_num[8]} {reflectometer_inst/sampler_dut/cnt_smp_num[9]} {reflectometer_inst/sampler_dut/cnt_smp_num[10]} {reflectometer_inst/sampler_dut/cnt_smp_num[11]} {reflectometer_inst/sampler_dut/cnt_smp_num[12]} {reflectometer_inst/sampler_dut/cnt_smp_num[13]} {reflectometer_inst/sampler_dut/cnt_smp_num[14]} {reflectometer_inst/sampler_dut/cnt_smp_num[15]} {reflectometer_inst/sampler_dut/cnt_smp_num[16]} {reflectometer_inst/sampler_dut/cnt_smp_num[17]} {reflectometer_inst/sampler_dut/cnt_smp_num[18]} {reflectometer_inst/sampler_dut/cnt_smp_num[19]} {reflectometer_inst/sampler_dut/cnt_smp_num[20]} {reflectometer_inst/sampler_dut/cnt_smp_num[21]} {reflectometer_inst/sampler_dut/cnt_smp_num[22]} {reflectometer_inst/sampler_dut/cnt_smp_num[23]} {reflectometer_inst/sampler_dut/cnt_smp_num[24]} {reflectometer_inst/sampler_dut/cnt_smp_num[25]} {reflectometer_inst/sampler_dut/cnt_smp_num[26]} {reflectometer_inst/sampler_dut/cnt_smp_num[27]} {reflectometer_inst/sampler_dut/cnt_smp_num[28]} {reflectometer_inst/sampler_dut/cnt_smp_num[29]} {reflectometer_inst/sampler_dut/cnt_smp_num[30]} {reflectometer_inst/sampler_dut/cnt_smp_num[31]}]]
 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 12 [get_debug_ports u_ila_0/probe3]
 connect_debug_port u_ila_0/probe3 [get_nets [list {reflectometer_inst/sampler_dut/data_converted[0]} {reflectometer_inst/sampler_dut/data_converted[1]} {reflectometer_inst/sampler_dut/data_converted[2]} {reflectometer_inst/sampler_dut/data_converted[3]} {reflectometer_inst/sampler_dut/data_converted[4]} {reflectometer_inst/sampler_dut/data_converted[5]} {reflectometer_inst/sampler_dut/data_converted[6]} {reflectometer_inst/sampler_dut/data_converted[7]} {reflectometer_inst/sampler_dut/data_converted[8]} {reflectometer_inst/sampler_dut/data_converted[9]} {reflectometer_inst/sampler_dut/data_converted[10]} {reflectometer_inst/sampler_dut/data_converted[11]}]]
 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 32 [get_debug_ports u_ila_0/probe4]
 connect_debug_port u_ila_0/probe4 [get_nets [list {reflectometer_inst/sampler_dut/smp_num_reg[0]} {reflectometer_inst/sampler_dut/smp_num_reg[1]} {reflectometer_inst/sampler_dut/smp_num_reg[2]} {reflectometer_inst/sampler_dut/smp_num_reg[3]} {reflectometer_inst/sampler_dut/smp_num_reg[4]} {reflectometer_inst/sampler_dut/smp_num_reg[5]} {reflectometer_inst/sampler_dut/smp_num_reg[6]} {reflectometer_inst/sampler_dut/smp_num_reg[7]} {reflectometer_inst/sampler_dut/smp_num_reg[8]} {reflectometer_inst/sampler_dut/smp_num_reg[9]} {reflectometer_inst/sampler_dut/smp_num_reg[10]} {reflectometer_inst/sampler_dut/smp_num_reg[11]} {reflectometer_inst/sampler_dut/smp_num_reg[12]} {reflectometer_inst/sampler_dut/smp_num_reg[13]} {reflectometer_inst/sampler_dut/smp_num_reg[14]} {reflectometer_inst/sampler_dut/smp_num_reg[15]} {reflectometer_inst/sampler_dut/smp_num_reg[16]} {reflectometer_inst/sampler_dut/smp_num_reg[17]} {reflectometer_inst/sampler_dut/smp_num_reg[18]} {reflectometer_inst/sampler_dut/smp_num_reg[19]} {reflectometer_inst/sampler_dut/smp_num_reg[20]} {reflectometer_inst/sampler_dut/smp_num_reg[21]} {reflectometer_inst/sampler_dut/smp_num_reg[22]} {reflectometer_inst/sampler_dut/smp_num_reg[23]} {reflectometer_inst/sampler_dut/smp_num_reg[24]} {reflectometer_inst/sampler_dut/smp_num_reg[25]} {reflectometer_inst/sampler_dut/smp_num_reg[26]} {reflectometer_inst/sampler_dut/smp_num_reg[27]} {reflectometer_inst/sampler_dut/smp_num_reg[28]} {reflectometer_inst/sampler_dut/smp_num_reg[29]} {reflectometer_inst/sampler_dut/smp_num_reg[30]} {reflectometer_inst/sampler_dut/smp_num_reg[31]}]]
 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 12 [get_debug_ports u_ila_0/probe5]
 connect_debug_port u_ila_0/probe5 [get_nets [list {reflectometer_inst/accum_m_axis_tdata[0]} {reflectometer_inst/accum_m_axis_tdata[1]} {reflectometer_inst/accum_m_axis_tdata[2]} {reflectometer_inst/accum_m_axis_tdata[3]} {reflectometer_inst/accum_m_axis_tdata[4]} {reflectometer_inst/accum_m_axis_tdata[5]} {reflectometer_inst/accum_m_axis_tdata[6]} {reflectometer_inst/accum_m_axis_tdata[7]} {reflectometer_inst/accum_m_axis_tdata[8]} {reflectometer_inst/accum_m_axis_tdata[9]} {reflectometer_inst/accum_m_axis_tdata[10]} {reflectometer_inst/accum_m_axis_tdata[11]}]]
 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 16 [get_debug_ports u_ila_0/probe6]
 connect_debug_port u_ila_0/probe6 [get_nets [list {reflectometer_inst/adc_pulse_num[0]} {reflectometer_inst/adc_pulse_num[1]} {reflectometer_inst/adc_pulse_num[2]} {reflectometer_inst/adc_pulse_num[3]} {reflectometer_inst/adc_pulse_num[4]} {reflectometer_inst/adc_pulse_num[5]} {reflectometer_inst/adc_pulse_num[6]} {reflectometer_inst/adc_pulse_num[7]} {reflectometer_inst/adc_pulse_num[8]} {reflectometer_inst/adc_pulse_num[9]} {reflectometer_inst/adc_pulse_num[10]} {reflectometer_inst/adc_pulse_num[11]} {reflectometer_inst/adc_pulse_num[12]} {reflectometer_inst/adc_pulse_num[13]} {reflectometer_inst/adc_pulse_num[14]} {reflectometer_inst/adc_pulse_num[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe7]
 set_property port_width 32 [get_debug_ports u_ila_0/probe7]
 connect_debug_port u_ila_0/probe7 [get_nets [list {reflectometer_inst/adc_pulse_period[0]} {reflectometer_inst/adc_pulse_period[1]} {reflectometer_inst/adc_pulse_period[2]} {reflectometer_inst/adc_pulse_period[3]} {reflectometer_inst/adc_pulse_period[4]} {reflectometer_inst/adc_pulse_period[5]} {reflectometer_inst/adc_pulse_period[6]} {reflectometer_inst/adc_pulse_period[7]} {reflectometer_inst/adc_pulse_period[8]} {reflectometer_inst/adc_pulse_period[9]} {reflectometer_inst/adc_pulse_period[10]} {reflectometer_inst/adc_pulse_period[11]} {reflectometer_inst/adc_pulse_period[12]} {reflectometer_inst/adc_pulse_period[13]} {reflectometer_inst/adc_pulse_period[14]} {reflectometer_inst/adc_pulse_period[15]} {reflectometer_inst/adc_pulse_period[16]} {reflectometer_inst/adc_pulse_period[17]} {reflectometer_inst/adc_pulse_period[18]} {reflectometer_inst/adc_pulse_period[19]} {reflectometer_inst/adc_pulse_period[20]} {reflectometer_inst/adc_pulse_period[21]} {reflectometer_inst/adc_pulse_period[22]} {reflectometer_inst/adc_pulse_period[23]} {reflectometer_inst/adc_pulse_period[24]} {reflectometer_inst/adc_pulse_period[25]} {reflectometer_inst/adc_pulse_period[26]} {reflectometer_inst/adc_pulse_period[27]} {reflectometer_inst/adc_pulse_period[28]} {reflectometer_inst/adc_pulse_period[29]} {reflectometer_inst/adc_pulse_period[30]} {reflectometer_inst/adc_pulse_period[31]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe8]
 set_property port_width 12 [get_debug_ports u_ila_0/probe8]
 connect_debug_port u_ila_0/probe8 [get_nets [list {ch2_data_IBUF[0]} {ch2_data_IBUF[1]} {ch2_data_IBUF[2]} {ch2_data_IBUF[3]} {ch2_data_IBUF[4]} {ch2_data_IBUF[5]} {ch2_data_IBUF[6]} {ch2_data_IBUF[7]} {ch2_data_IBUF[8]} {ch2_data_IBUF[9]} {ch2_data_IBUF[10]} {ch2_data_IBUF[11]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe9]
 set_property port_width 1 [get_debug_ports u_ila_0/probe9]
 connect_debug_port u_ila_0/probe9 [get_nets [list reflectometer_inst/acum_m_axis_tvalid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe10]
 set_property port_width 1 [get_debug_ports u_ila_0/probe10]
 connect_debug_port u_ila_0/probe10 [get_nets [list reflectometer_inst/adc_rst]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe11]
 set_property port_width 1 [get_debug_ports u_ila_0/probe11]
 connect_debug_port u_ila_0/probe11 [get_nets [list reflectometer_inst/adc_start]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe12]
 set_property port_width 1 [get_debug_ports u_ila_0/probe12]
 connect_debug_port u_ila_0/probe12 [get_nets [list reflectometer_inst/sampler_dut/buffer_ready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe13]
 set_property port_width 1 [get_debug_ports u_ila_0/probe13]
 connect_debug_port u_ila_0/probe13 [get_nets [list reflectometer_inst/sampler_dut/enable]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe14]
 set_property port_width 1 [get_debug_ports u_ila_0/probe14]
 connect_debug_port u_ila_0/probe14 [get_nets [list reflectometer_inst/finish]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe15]
 set_property port_width 1 [get_debug_ports u_ila_0/probe15]
 connect_debug_port u_ila_0/probe15 [get_nets [list reflectometer_inst/sampler_dut/out_of_range_reg]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe16]
 set_property port_width 1 [get_debug_ports u_ila_0/probe16]
 connect_debug_port u_ila_0/probe16 [get_nets [list reflectometer_inst/sample_req]]
 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 reflectometer_inst/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 32 [get_debug_ports u_ila_1/probe0]
 connect_debug_port u_ila_1/probe0 [get_nets [list {reflectometer_inst/generator_inst/cnt_period[0]} {reflectometer_inst/generator_inst/cnt_period[1]} {reflectometer_inst/generator_inst/cnt_period[2]} {reflectometer_inst/generator_inst/cnt_period[3]} {reflectometer_inst/generator_inst/cnt_period[4]} {reflectometer_inst/generator_inst/cnt_period[5]} {reflectometer_inst/generator_inst/cnt_period[6]} {reflectometer_inst/generator_inst/cnt_period[7]} {reflectometer_inst/generator_inst/cnt_period[8]} {reflectometer_inst/generator_inst/cnt_period[9]} {reflectometer_inst/generator_inst/cnt_period[10]} {reflectometer_inst/generator_inst/cnt_period[11]} {reflectometer_inst/generator_inst/cnt_period[12]} {reflectometer_inst/generator_inst/cnt_period[13]} {reflectometer_inst/generator_inst/cnt_period[14]} {reflectometer_inst/generator_inst/cnt_period[15]} {reflectometer_inst/generator_inst/cnt_period[16]} {reflectometer_inst/generator_inst/cnt_period[17]} {reflectometer_inst/generator_inst/cnt_period[18]} {reflectometer_inst/generator_inst/cnt_period[19]} {reflectometer_inst/generator_inst/cnt_period[20]} {reflectometer_inst/generator_inst/cnt_period[21]} {reflectometer_inst/generator_inst/cnt_period[22]} {reflectometer_inst/generator_inst/cnt_period[23]} {reflectometer_inst/generator_inst/cnt_period[24]} {reflectometer_inst/generator_inst/cnt_period[25]} {reflectometer_inst/generator_inst/cnt_period[26]} {reflectometer_inst/generator_inst/cnt_period[27]} {reflectometer_inst/generator_inst/cnt_period[28]} {reflectometer_inst/generator_inst/cnt_period[29]} {reflectometer_inst/generator_inst/cnt_period[30]} {reflectometer_inst/generator_inst/cnt_period[31]}]]
 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 {reflectometer_inst/generator_inst/cnt_pulse_num[0]} {reflectometer_inst/generator_inst/cnt_pulse_num[1]} {reflectometer_inst/generator_inst/cnt_pulse_num[2]} {reflectometer_inst/generator_inst/cnt_pulse_num[3]} {reflectometer_inst/generator_inst/cnt_pulse_num[4]} {reflectometer_inst/generator_inst/cnt_pulse_num[5]} {reflectometer_inst/generator_inst/cnt_pulse_num[6]} {reflectometer_inst/generator_inst/cnt_pulse_num[7]} {reflectometer_inst/generator_inst/cnt_pulse_num[8]} {reflectometer_inst/generator_inst/cnt_pulse_num[9]} {reflectometer_inst/generator_inst/cnt_pulse_num[10]} {reflectometer_inst/generator_inst/cnt_pulse_num[11]} {reflectometer_inst/generator_inst/cnt_pulse_num[12]} {reflectometer_inst/generator_inst/cnt_pulse_num[13]} {reflectometer_inst/generator_inst/cnt_pulse_num[14]} {reflectometer_inst/generator_inst/cnt_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 {reflectometer_inst/dac_pulse_height[0]} {reflectometer_inst/dac_pulse_height[1]} {reflectometer_inst/dac_pulse_height[2]} {reflectometer_inst/dac_pulse_height[3]} {reflectometer_inst/dac_pulse_height[4]} {reflectometer_inst/dac_pulse_height[5]} {reflectometer_inst/dac_pulse_height[6]} {reflectometer_inst/dac_pulse_height[7]} {reflectometer_inst/dac_pulse_height[8]} {reflectometer_inst/dac_pulse_height[9]} {reflectometer_inst/dac_pulse_height[10]} {reflectometer_inst/dac_pulse_height[11]} {reflectometer_inst/dac_pulse_height[12]} {reflectometer_inst/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 {reflectometer_inst/dac_pulse_width[0]} {reflectometer_inst/dac_pulse_width[1]} {reflectometer_inst/dac_pulse_width[2]} {reflectometer_inst/dac_pulse_width[3]} {reflectometer_inst/dac_pulse_width[4]} {reflectometer_inst/dac_pulse_width[5]} {reflectometer_inst/dac_pulse_width[6]} {reflectometer_inst/dac_pulse_width[7]} {reflectometer_inst/dac_pulse_width[8]} {reflectometer_inst/dac_pulse_width[9]} {reflectometer_inst/dac_pulse_width[10]} {reflectometer_inst/dac_pulse_width[11]} {reflectometer_inst/dac_pulse_width[12]} {reflectometer_inst/dac_pulse_width[13]} {reflectometer_inst/dac_pulse_width[14]} {reflectometer_inst/dac_pulse_width[15]} {reflectometer_inst/dac_pulse_width[16]} {reflectometer_inst/dac_pulse_width[17]} {reflectometer_inst/dac_pulse_width[18]} {reflectometer_inst/dac_pulse_width[19]} {reflectometer_inst/dac_pulse_width[20]} {reflectometer_inst/dac_pulse_width[21]} {reflectometer_inst/dac_pulse_width[22]} {reflectometer_inst/dac_pulse_width[23]} {reflectometer_inst/dac_pulse_width[24]} {reflectometer_inst/dac_pulse_width[25]} {reflectometer_inst/dac_pulse_width[26]} {reflectometer_inst/dac_pulse_width[27]} {reflectometer_inst/dac_pulse_width[28]} {reflectometer_inst/dac_pulse_width[29]} {reflectometer_inst/dac_pulse_width[30]} {reflectometer_inst/dac_pulse_width[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 16 [get_debug_ports u_ila_1/probe4]
 connect_debug_port u_ila_1/probe4 [get_nets [list {reflectometer_inst/dac_pulse_num[0]} {reflectometer_inst/dac_pulse_num[1]} {reflectometer_inst/dac_pulse_num[2]} {reflectometer_inst/dac_pulse_num[3]} {reflectometer_inst/dac_pulse_num[4]} {reflectometer_inst/dac_pulse_num[5]} {reflectometer_inst/dac_pulse_num[6]} {reflectometer_inst/dac_pulse_num[7]} {reflectometer_inst/dac_pulse_num[8]} {reflectometer_inst/dac_pulse_num[9]} {reflectometer_inst/dac_pulse_num[10]} {reflectometer_inst/dac_pulse_num[11]} {reflectometer_inst/dac_pulse_num[12]} {reflectometer_inst/dac_pulse_num[13]} {reflectometer_inst/dac_pulse_num[14]} {reflectometer_inst/dac_pulse_num[15]}]]
 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 32 [get_debug_ports u_ila_1/probe5]
 connect_debug_port u_ila_1/probe5 [get_nets [list {reflectometer_inst/dac_pulse_period[0]} {reflectometer_inst/dac_pulse_period[1]} {reflectometer_inst/dac_pulse_period[2]} {reflectometer_inst/dac_pulse_period[3]} {reflectometer_inst/dac_pulse_period[4]} {reflectometer_inst/dac_pulse_period[5]} {reflectometer_inst/dac_pulse_period[6]} {reflectometer_inst/dac_pulse_period[7]} {reflectometer_inst/dac_pulse_period[8]} {reflectometer_inst/dac_pulse_period[9]} {reflectometer_inst/dac_pulse_period[10]} {reflectometer_inst/dac_pulse_period[11]} {reflectometer_inst/dac_pulse_period[12]} {reflectometer_inst/dac_pulse_period[13]} {reflectometer_inst/dac_pulse_period[14]} {reflectometer_inst/dac_pulse_period[15]} {reflectometer_inst/dac_pulse_period[16]} {reflectometer_inst/dac_pulse_period[17]} {reflectometer_inst/dac_pulse_period[18]} {reflectometer_inst/dac_pulse_period[19]} {reflectometer_inst/dac_pulse_period[20]} {reflectometer_inst/dac_pulse_period[21]} {reflectometer_inst/dac_pulse_period[22]} {reflectometer_inst/dac_pulse_period[23]} {reflectometer_inst/dac_pulse_period[24]} {reflectometer_inst/dac_pulse_period[25]} {reflectometer_inst/dac_pulse_period[26]} {reflectometer_inst/dac_pulse_period[27]} {reflectometer_inst/dac_pulse_period[28]} {reflectometer_inst/dac_pulse_period[29]} {reflectometer_inst/dac_pulse_period[30]} {reflectometer_inst/dac_pulse_period[31]}]]
 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 14 [get_debug_ports u_ila_1/probe6]
 connect_debug_port u_ila_1/probe6 [get_nets [list {reflectometer_inst/p2_data[0]} {reflectometer_inst/p2_data[1]} {reflectometer_inst/p2_data[2]} {reflectometer_inst/p2_data[3]} {reflectometer_inst/p2_data[4]} {reflectometer_inst/p2_data[5]} {reflectometer_inst/p2_data[6]} {reflectometer_inst/p2_data[7]} {reflectometer_inst/p2_data[8]} {reflectometer_inst/p2_data[9]} {reflectometer_inst/p2_data[10]} {reflectometer_inst/p2_data[11]} {reflectometer_inst/p2_data[12]} {reflectometer_inst/p2_data[13]}]]
 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 reflectometer_inst/dac_rst]]
 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 reflectometer_inst/dac_start]]
 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 reflectometer_inst/generator_inst/enable]]
 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 reflectometer_inst/sample_done]]
 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 e_gtxc_OBUF_BUFG]]
 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 {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_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe1]
 set_property port_width 8 [get_debug_ports u_ila_2/probe1]
 connect_debug_port u_ila_2/probe1 [get_nets [list {s_axis_tx_tdata[0]} {s_axis_tx_tdata[1]} {s_axis_tx_tdata[2]} {s_axis_tx_tdata[3]} {s_axis_tx_tdata[4]} {s_axis_tx_tdata[5]} {s_axis_tx_tdata[6]} {s_axis_tx_tdata[7]}]]
 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 3 [get_debug_ports u_ila_2/probe2]
 connect_debug_port u_ila_2/probe2 [get_nets [list {reflectometer_inst/accumulator_top_dut/output_async_fifo/rd_state[0]} {reflectometer_inst/accumulator_top_dut/output_async_fifo/rd_state[1]} {reflectometer_inst/accumulator_top_dut/output_async_fifo/rd_state[2]}]]
 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 3 [get_debug_ports u_ila_2/probe3]
 connect_debug_port u_ila_2/probe3 [get_nets [list {reflectometer_inst/udp_ctrl_inst/eth_state[0]} {reflectometer_inst/udp_ctrl_inst/eth_state[1]} {reflectometer_inst/udp_ctrl_inst/eth_state[2]}]]
 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 reflectometer_inst/udp_ctrl_inst/busy_flag_eth]]
 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 m_axis_rx_tlast]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe6]
 set_property port_width 1 [get_debug_ports u_ila_2/probe6]
 connect_debug_port u_ila_2/probe6 [get_nets [list m_axis_rx_tready]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe7]
 set_property port_width 1 [get_debug_ports u_ila_2/probe7]
 connect_debug_port u_ila_2/probe7 [get_nets [list m_axis_rx_tvalid]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe8]
 set_property port_width 1 [get_debug_ports u_ila_2/probe8]
 connect_debug_port u_ila_2/probe8 [get_nets [list req_ready]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe9]
 set_property port_width 1 [get_debug_ports u_ila_2/probe9]
 connect_debug_port u_ila_2/probe9 [get_nets [list s_axis_tx_tlast]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe10]
 set_property port_width 1 [get_debug_ports u_ila_2/probe10]
 connect_debug_port u_ila_2/probe10 [get_nets [list s_axis_tx_tready]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe11]
 set_property port_width 1 [get_debug_ports u_ila_2/probe11]
 connect_debug_port u_ila_2/probe11 [get_nets [list s_axis_tx_tvalid]]
 create_debug_port u_ila_2 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_2/probe12]
 set_property port_width 1 [get_debug_ports u_ila_2/probe12]
 connect_debug_port u_ila_2/probe12 [get_nets [list send_req]]
 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 e_gtxc_OBUF_BUFG]
--- a/designs/reflectometer_prototype/ip/clk_wiz_ctrl_inst.xci
+++ b/designs/reflectometer_prototype/ip/clk_wiz_ctrl_inst.xci
@ -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" } ],
        "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" } ],
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        "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" } ],
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        "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" } ],
        "C_CLKOUT5_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_CLKOUT6_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_CLKOUT7_DUTY_CYCLE": [ { "value": "50.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_USE_SAFE_CLOCK_STARTUP": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_USE_CLOCK_SEQUENCING": [ { "value": "0", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_CLKOUT1_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_CLKOUT2_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_CLKOUT3_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_CLKOUT4_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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        "C_CLKOUT6_SEQUENCE_NUMBER": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "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": "16.875", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKIN1_PERIOD": [ { "value": "5.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "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" } ],
        "C_MMCM_CLOCK_HOLD": [ { "value": "FALSE", "resolve_type": "generated", "format": "bool", "usage": "all" } ],
        "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_REF_JITTER2": [ { "value": "0.010", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_STARTUP_WAIT": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "C_MMCM_CLKOUT0_DIVIDE_F": [ { "value": "6.750", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT1_DIVIDE": [ { "value": "13", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT2_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT3_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT4_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT5_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "C_MMCM_CLKOUT6_DIVIDE": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
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        "C_MMCM_CLKOUT1_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT2_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
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        "C_MMCM_CLKOUT5_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT6_DUTY_CYCLE": [ { "value": "0.500", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "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" } ],
        "C_MMCM_CLKOUT1_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT2_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT3_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT4_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "C_MMCM_CLKOUT5_PHASE": [ { "value": "0.000", "resolve_type": "generated", "format": "float", "usage": "all" } ],
        "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" } ],
        "C_MMCM_CLKOUT1_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "C_MMCM_CLKOUT2_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "C_MMCM_CLKOUT3_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "C_MMCM_CLKOUT4_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "C_MMCM_CLKOUT5_USE_FINE_PS": [ { "value": "FALSE", "resolve_type": "generated", "usage": "all" } ],
        "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" } ],
        "C_PLL_CLKFBOUT_MULT": [ { "value": "1", "resolve_type": "generated", "format": "long", "usage": "all" } ],
        "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" } ],
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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" } ]
          }
        }
      }
    }
  }
 }
--- a/designs/reflectometer_prototype/prototype.sv
+++ b/designs/reflectometer_prototype/prototype.sv
@ -0,0 +1,174 @@
 `timescale 1 ns / 1 ns
 module prototype_top #(
    parameter int unsigned DAC_DATA_WIDTH = 14,
    parameter int unsigned ADC_DATA_WIDTH = 12,
    parameter PACK_FACTOR = 1,
    parameter PROCESS_MODE = 0,
    parameter ZERO_LEVEL = 8192,
    parameter ACCUM_WIDTH = 32,
    parameter N_MAX = 4096,
    parameter WINDOW_SIZE = 65,
    parameter PACKET_SIZE = 1024
 )(
    input                  sys_clk_p,                    // system clock positive
    input                  sys_clk_n,                    // system clock negative 
    input                   rst_n,                       // reset ,low active
    output [3:0]            led,                         // display network rate status
    output                  e_reset,                     // phy reset
    output                  e_mdc,                       // phy emdio clock
    inout                   e_mdio,                      // phy emdio data
    input	                e_rxc,                       // 125Mhz ethernet gmii rx clock
    input                   e_rxdv,                      // GMII recieving data valid
    input                   e_rxer,                      // GMII recieving data error                    
    input [7:0]             e_rxd,                       // GMII recieving data          
    input                   e_txc,                       // 25Mhz ethernet mii tx clock         
    output                  e_gtxc,                      // 125Mhz ethernet gmii tx clock  
    output                  e_txen,                      // GMII sending data valid    
    output                  e_txer,                      // GMII sending data error                   
    output[7:0]             e_txd,                       // GMII sending data
    // analog
    output                      da2_clk,
    output                      da2_wrt,
    output [DAC_DATA_WIDTH-1:0] da2_data,
    output                      ch2_clk,
    input                       ch2_otr,
    input [ADC_DATA_WIDTH-1:0]  ch2_data
    );
    wire                    sys_clk;                     //single end clock 
    wire  [31:0]            pack_total_len ;             //package length
    wire [1:0]              speed      ;                 //net speed select
    wire                    link       ;                 //link status
    wire                    erxdv    ;
    wire [7:0]              erxd      ;
    wire                    e_tx_en    ;
    wire [7:0]              etxd      ;
    wire                    e_rst_n    ;
    assign e_gtxc = e_rxc;	 
    assign e_reset = 1'b1; 
    // generate single end clock
    IBUFDS sys_clk_ibufgds
    (
    .O                      (sys_clk                 ),
    .I                      (sys_clk_p               ),
    .IB                     (sys_clk_n               )
    );
    // Different conversion of GMII data according to different network speeds
    gmii_arbi arbi_inst
    (
    .clk                    (e_gtxc                 ),
    .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             (e_rxdv                 ),
    .gmii_rxd               (e_rxd                  ),
    .gmii_tx_en             (e_tx_en                ),
    .gmii_txd               (etxd                   ), 
    .e_rx_dv                (erxdv                  ),
    .e_rxd                  (erxd                   ),
    .e_tx_en                (e_txen                 ),
    .e_txd                  (e_txd                  ) 
    );
    // ------------------------------------------------------------
    // axis_mac interface
    // ------------------------------------------------------------
    wire         req_ready;
    wire         send_req;
    wire  [7:0]  s_axis_tx_tdata;
    wire         s_axis_tx_tvalid;
    wire         s_axis_tx_tready;
    wire         s_axis_tx_tlast;
    wire [7:0]   m_axis_rx_tdata;
    wire         m_axis_rx_tvalid;
    wire         m_axis_rx_tready;
    wire         m_axis_rx_tlast;
    // ------------------------------------------------------------
    // axis_mac
    // ------------------------------------------------------------
    axis_mac axis_mac0
    (
        .gmii_tx_clk       (e_gtxc),
        .gmii_rx_clk       (e_rxc),
        .rst_n             (e_rst_n),
        .gmii_rx_dv        (erxdv),
        .gmii_rxd          (erxd),
        .gmii_tx_en        (e_tx_en),
        .gmii_txd          (etxd),
        .send_req          (send_req),
        .data_length       (PACKET_SIZE),
        .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)
    );
    // reflectometer base module
    reflectometer_top #(
        .PROCESS_MODE(PROCESS_MODE),
        .PACK_FACTOR(PACK_FACTOR),
        .ACCUM_WIDTH(ACCUM_WIDTH),
        .N_MAX(N_MAX),
        .ZERO_LEVEL(ZERO_LEVEL),
        .WINDOW_SIZE(WINDOW_SIZE),
        .PACKET_SIZE(PACKET_SIZE),
        .ADC_DATA_WIDTH(ADC_DATA_WIDTH),
        .DAC_DATA_WIDTH(DAC_DATA_WIDTH)
    ) reflectometer_inst (
    .sys_clk (sys_clk),
    .rst_n (rst_n),
    .led(led),
    .gmii_tx_clk       (e_gtxc),
    .gmii_rx_clk       (e_rxc),
    .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),
    // axis_mac
    .req_ready(req_ready),
    .send_req(send_req),
    // DAC
    .p2_clk(da2_clk),
    .p2_data(da2_data),
    .p2_wrt(da2_wrt),
    // ADC
    .ch2_clk(ch2_clk),
    .ch2_data(ch2_data),
    .ch2_otr(ch2_otr)
    );
 endmodule
--- a/docs/sampler.md
+++ b/docs/sampler.md
@ -1 +0,0 @@
 # Блок Sampler
--- a/rtl/accum/README.md
+++ b/rtl/accum/README.md
@ -0,0 +1,39 @@
 # 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.
--- a/rtl/accum/src/accum.sv
+++ b/rtl/accum/src/accum.sv
@ -0,0 +1,271 @@
 `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
--- a/rtl/accum/src/accum_top.sv
+++ b/rtl/accum/src/accum_top.sv
@ -0,0 +1,92 @@
 `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
--- a/rtl/accum/src/adder.sv
+++ b/rtl/accum/src/adder.sv
@ -0,0 +1,52 @@
 `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
--- a/rtl/accum/src/out_axis_fifo.sv
+++ b/rtl/accum/src/out_axis_fifo.sv
@ -0,0 +1,324 @@
 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
--- a/rtl/accum/tests/Makefile
+++ b/rtl/accum/tests/Makefile
@ -0,0 +1,53 @@
 # 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;
--- a/rtl/accum/tests/accum_full_tb.sv
+++ b/rtl/accum/tests/accum_full_tb.sv
@ -0,0 +1,348 @@
 `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     = 256;
    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");
        run_test(7, 20,  1 * WINDOW_SIZE, 1'b1, 0,  "random_20seq");
        run_test(8, 20,  3 * WINDOW_SIZE, 1'b1, 0,  "random_20seqx3");
        run_test(9, 200,  1 * WINDOW_SIZE, 1'b1, 0,  "random_200seq");
        $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
--- a/rtl/accum/tests/accum_tb.sv
+++ b/rtl/accum/tests/accum_tb.sv
@ -0,0 +1,183 @@
 `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 ===");
        $finish;
    end
 endmodule
--- a/rtl/accum/tests/out_axis_fifo_tb.sv
+++ b/rtl/accum/tests/out_axis_fifo_tb.sv
@ -0,0 +1,290 @@
 `timescale 1ns/1ps
 module tb_out_axis_fifo;
    localparam int ACCUM_WIDTH = 32;
    localparam int WINDOW_SIZE = 65;
    localparam int PACKET_SIZE = 8;
    localparam int BYTES_PER_WORD = ACCUM_WIDTH / 8;
    localparam int WORDS_PER_BATCH = PACKET_SIZE / BYTES_PER_WORD; // 1024 / 4 = 256 слов
    logic eth_clk_in;
    logic acc_clk_in;
    logic rst;
    logic [31:0] smp_num;
    logic [7:0]  m_axis_tdata;
    logic        m_axis_tvalid;
    logic        m_axis_tready;
    logic        m_axis_tlast;
    logic [ACCUM_WIDTH-1:0] acc_din;
    logic                   din_valid;
    logic send_req;
    logic req_ready;
    logic readout_begin;
    logic batch_req;
    logic finish;
    out_axis_fifo #(
        .ACCUM_WIDTH(ACCUM_WIDTH),
        .WINDOW_SIZE(WINDOW_SIZE),
        .PACKET_SIZE(PACKET_SIZE)
    ) dut (
        .eth_clk_in    (eth_clk_in),
        .acc_clk_in    (acc_clk_in),
        .rst           (rst),
        .smp_num       (smp_num),
        .m_axis_tdata  (m_axis_tdata),
        .m_axis_tvalid (m_axis_tvalid),
        .m_axis_tready (m_axis_tready),
        .m_axis_tlast  (m_axis_tlast),
        .acc_din       (acc_din),
        .din_valid     (din_valid),
        .readout_begin (readout_begin),
        .req_ready     (req_ready),
        .send_req      (send_req),
        .batch_req     (batch_req),
        .finish        (finish)
    );
    // clocks
    initial begin
        eth_clk_in = 0;
        forever #6 eth_clk_in = ~eth_clk_in;   // 125
    end
    initial begin
        acc_clk_in = 0;
        forever #7.692307692 acc_clk_in = ~acc_clk_in;   // 65
    end
    // scoreboard
    byte expected_bytes[$];
    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
--- a/rtl/accum/tests/tb_accumulator_top_behav.wcfg
+++ b/rtl/accum/tests/tb_accumulator_top_behav.wcfg
@ -0,0 +1,183 @@
 <?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="2,748,541.000 ns"></ZoomStartTime>
      <ZoomEndTime time="2,749,382.001 ns"></ZoomEndTime>
      <Cursor1Time time="2,749,045.000 ns"></Cursor1Time>
   </zoom_setting>
   <column_width_setting>
      <NameColumnWidth column_width="556"></NameColumnWidth>
      <ValueColumnWidth column_width="107"></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 type="array" fp_name="/tb_accumulator_top/dut/accum_main/wr_state">
         <obj_property name="ElementShortName">wr_state[3:0]</obj_property>
         <obj_property name="ObjectShortName">wr_state[3:0]</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[9:0]</obj_property>
         <obj_property name="ObjectShortName">wr_data_count[9:0]</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[11:0]</obj_property>
         <obj_property name="ObjectShortName">rd_data_count[11:0]</obj_property>
         <obj_property name="Radix">UNSIGNEDDECRADIX</obj_property>
      </wvobject>
   </wvobject>
 </wave_config>
--- a/rtl/accum/tests/tb_out_axis_fifo_behav.wcfg
+++ b/rtl/accum/tests/tb_out_axis_fifo_behav.wcfg
@ -0,0 +1,196 @@
 <?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>
--- a/rtl/accum/tests/test_timing.xdc
+++ b/rtl/accum/tests/test_timing.xdc
@ -0,0 +1,10 @@
 # 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]
--- a/rtl/controller/README.md
+++ b/rtl/controller/README.md
@ -41,14 +41,15 @@
 *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.
+*set_data* значит, что следующие 128 бит = 16*8 байт, пришедшии по axis - это конфигурационная информация и ее нужно записать в внутренний регистр на 128 бит.
-конфигурационный регистр на 96 бит делится так:
+конфигурационный регистр на 128 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
 reg[127:96] - pulse_period_adc
 ```
 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.
--- a/rtl/controller/src/controller.sv
+++ b/rtl/controller/src/controller.sv
@ -109,9 +109,11 @@ module control #(
    // [63:32]  pulse_period
    // [79:64]  pulse_num
    // [95:80]  pulse_height_raw[15:0]
    // [127:96] pulse_period_ADC
    //
    // -------------------------------------------------------------------------
-    (* MARK_DEBUG="true" *) logic [95:0] cfg_bus_eth;
+    (* MARK_DEBUG="true" *) logic [127:0] cfg_bus_eth;
-    logic [95:0] cfg_shift_eth;
+    logic [127:0] cfg_shift_eth;
    // ETH-domain parser and control
    typedef enum logic [2:0] {
@ -278,10 +280,10 @@ module control #(
                        // little endian packing
                        cfg_shift_eth[cfg_byte_cnt*8 +: 8] <= s_axis_tdata;
-                        if (cfg_byte_cnt == 4'd11) begin
+                        if (cfg_byte_cnt == 4'd15) 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_bus_eth            <= {s_axis_tdata, cfg_shift_eth[119:0]};
                                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;
@ -451,7 +453,7 @@ module control #(
            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_period <= cfg_bus_eth[127:96];
                adc_pulse_num    <= cfg_bus_eth[79:64];
                cfg_ack_toggle_adc <= ~cfg_ack_toggle_adc;
--- a/rtl/controller/tests/controller_tb.sv
+++ b/rtl/controller/tests/controller_tb.sv
@ -139,9 +139,10 @@ module tb_control;
        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
+        input logic [15:0] pulse_height_raw,
        input logic [31:0] pulse_period_adc
    );
-        logic [95:0] payload;
+        logic [127:0] payload;
        int i;
        begin
            // little-endian payload layout:
@ -149,12 +150,14 @@ module tb_control;
            // [63:32]  pulse_period
            // [79:64]  pulse_num
            // [95:80]  pulse_height_raw
-            payload = {pulse_height_raw, pulse_num, pulse_period, pulse_width};
+            // [127:96] pulse_period_ADC
            payload = {pulse_period_adc, 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
+            for (i = 0; i < 16; i++) begin
-                axis_send_byte(payload[i*8 +: 8], (i == 11));
+                axis_send_byte(payload[i*8 +: 8], (i == 15));
            end
        end
    endtask
@ -219,6 +222,7 @@ module tb_control;
        input logic [31:0] exp_pulse_period,
        input logic [15:0] exp_pulse_num,
        input logic [15:0] exp_pulse_height_raw,
        input logic [31:0] exp_pulse_period_adc,
        input int max_cycles = 200
    );
        logic [DAC_DATA_WIDTH-1:0] exp_dac_height;
@ -232,7 +236,7 @@ module tb_control;
                    (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_period === exp_pulse_period_adc) &&
                    (adc_pulse_num    === exp_pulse_num   )) begin
                    return;
                end
@ -252,6 +256,7 @@ module tb_control;
    logic [31:0] test_pulse_period;
    logic [15:0] test_pulse_num;
    logic [15:0] test_pulse_height_raw;
    logic [31:0] test_pulse_period_adc;
    initial begin
        // defaults
@ -265,6 +270,7 @@ module tb_control;
        test_pulse_period     = 32'h55667788;
        test_pulse_num        = 16'hA1B2;
        test_pulse_height_raw = 16'h0CDE; // for DAC_DATA_WIDTH=12 => 12'hCDE
        test_pulse_period_adc = 32'h50607080;
        repeat (10) @(posedge eth_clk_in);
        rst_n = 1'b1;
@ -291,14 +297,16 @@ module tb_control;
            test_pulse_width,
            test_pulse_period,
            test_pulse_num,
-            test_pulse_height_raw
+            test_pulse_height_raw,
            test_pulse_period_adc
        );
        wait_cfg_applied(
            test_pulse_width,
            test_pulse_period,
            test_pulse_num,
-            test_pulse_height_raw
+            test_pulse_height_raw,
            test_pulse_period_adc
        );
        if (dac_pulse_width !== 32'h11223344) begin
@ -313,8 +321,8 @@ module tb_control;
        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
+        if (adc_pulse_period !== 32'h50607080) begin
-            $fatal(1, "adc_pulse_period mismatch: got %h expected %h", adc_pulse_period, 32'h55667788);
+            $fatal(1, "adc_pulse_period mismatch: got %h expected %h", adc_pulse_period, 32'h50607080);
        end
        if (adc_pulse_num !== 16'hA1B2) begin
            $fatal(1, "adc_pulse_num mismatch: got %h expected %h", adc_pulse_num, 16'hA1B2);
--- a/rtl/controller/tests/tb_control_behav.wcfg
+++ b/rtl/controller/tests/tb_control_behav.wcfg
@ -0,0 +1,197 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <wave_config>
   <wave_state>
   </wave_state>
   <db_ref_list>
      <db_ref path="tb_control_behav.wdb" id="1">
         <top_modules>
            <top_module name="glbl" />
            <top_module name="tb_control" />
         </top_modules>
      </db_ref>
   </db_ref_list>
   <zoom_setting>
      <ZoomStartTime time="0.676 ns"></ZoomStartTime>
      <ZoomEndTime time="645.677 ns"></ZoomEndTime>
      <Cursor1Time time="349.676 ns"></Cursor1Time>
   </zoom_setting>
   <column_width_setting>
      <NameColumnWidth column_width="558"></NameColumnWidth>
      <ValueColumnWidth column_width="61"></ValueColumnWidth>
   </column_width_setting>
   <WVObjectSize size="23" />
   <wvobject type="logic" fp_name="/tb_control/eth_clk_in">
      <obj_property name="ElementShortName">eth_clk_in</obj_property>
      <obj_property name="ObjectShortName">eth_clk_in</obj_property>
      <obj_property name="CustomSignalColor">#008080</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/dac_clk_in">
      <obj_property name="ElementShortName">dac_clk_in</obj_property>
      <obj_property name="ObjectShortName">dac_clk_in</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/adc_clk_in">
      <obj_property name="ElementShortName">adc_clk_in</obj_property>
      <obj_property name="ObjectShortName">adc_clk_in</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/rst_n">
      <obj_property name="ElementShortName">rst_n</obj_property>
      <obj_property name="ObjectShortName">rst_n</obj_property>
      <obj_property name="CustomSignalColor">#800080</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/s_axis_tdata">
      <obj_property name="ElementShortName">s_axis_tdata[7:0]</obj_property>
      <obj_property name="ObjectShortName">s_axis_tdata[7:0]</obj_property>
      <obj_property name="CustomSignalColor">#008080</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
      <obj_property name="Radix">BINARYRADIX</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/s_axis_tvalid">
      <obj_property name="ElementShortName">s_axis_tvalid</obj_property>
      <obj_property name="ObjectShortName">s_axis_tvalid</obj_property>
      <obj_property name="CustomSignalColor">#008080</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/s_axis_tready">
      <obj_property name="ElementShortName">s_axis_tready</obj_property>
      <obj_property name="ObjectShortName">s_axis_tready</obj_property>
      <obj_property name="CustomSignalColor">#008080</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/s_axis_tlast">
      <obj_property name="ElementShortName">s_axis_tlast</obj_property>
      <obj_property name="ObjectShortName">s_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_control/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="array" fp_name="/tb_control/dac_pulse_width">
      <obj_property name="ElementShortName">dac_pulse_width[31:0]</obj_property>
      <obj_property name="ObjectShortName">dac_pulse_width[31:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/dac_pulse_period">
      <obj_property name="ElementShortName">dac_pulse_period[31:0]</obj_property>
      <obj_property name="ObjectShortName">dac_pulse_period[31:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/dac_pulse_height">
      <obj_property name="ElementShortName">dac_pulse_height[11:0]</obj_property>
      <obj_property name="ObjectShortName">dac_pulse_height[11:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
      <obj_property name="Radix">HEXRADIX</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/dac_pulse_num">
      <obj_property name="ElementShortName">dac_pulse_num[15:0]</obj_property>
      <obj_property name="ObjectShortName">dac_pulse_num[15:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/adc_pulse_period">
      <obj_property name="ElementShortName">adc_pulse_period[31:0]</obj_property>
      <obj_property name="ObjectShortName">adc_pulse_period[31:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/adc_pulse_num">
      <obj_property name="ElementShortName">adc_pulse_num[15:0]</obj_property>
      <obj_property name="ObjectShortName">adc_pulse_num[15:0]</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/dac_start">
      <obj_property name="ElementShortName">dac_start</obj_property>
      <obj_property name="ObjectShortName">dac_start</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/adc_start">
      <obj_property name="ElementShortName">adc_start</obj_property>
      <obj_property name="ObjectShortName">adc_start</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/dac_rst">
      <obj_property name="ElementShortName">dac_rst</obj_property>
      <obj_property name="ObjectShortName">dac_rst</obj_property>
      <obj_property name="CustomSignalColor">#FFA500</obj_property>
      <obj_property name="UseCustomSignalColor">true</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/adc_rst">
      <obj_property name="ElementShortName">adc_rst</obj_property>
      <obj_property name="ObjectShortName">adc_rst</obj_property>
   </wvobject>
   <wvobject type="group" fp_name="group499">
      <obj_property name="label">tb signals</obj_property>
      <obj_property name="DisplayName">label</obj_property>
      <wvobject type="array" fp_name="/tb_control/dac_rst_count">
         <obj_property name="ElementShortName">dac_rst_count[31:0]</obj_property>
         <obj_property name="ObjectShortName">dac_rst_count[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/adc_rst_count">
         <obj_property name="ElementShortName">adc_rst_count[31:0]</obj_property>
         <obj_property name="ObjectShortName">adc_rst_count[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/dac_start_count">
         <obj_property name="ElementShortName">dac_start_count[31:0]</obj_property>
         <obj_property name="ObjectShortName">dac_start_count[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/adc_start_count">
         <obj_property name="ElementShortName">adc_start_count[31:0]</obj_property>
         <obj_property name="ObjectShortName">adc_start_count[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/test_pulse_width">
         <obj_property name="ElementShortName">test_pulse_width[31:0]</obj_property>
         <obj_property name="ObjectShortName">test_pulse_width[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/test_pulse_period">
         <obj_property name="ElementShortName">test_pulse_period[31:0]</obj_property>
         <obj_property name="ObjectShortName">test_pulse_period[31:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/test_pulse_num">
         <obj_property name="ElementShortName">test_pulse_num[15:0]</obj_property>
         <obj_property name="ObjectShortName">test_pulse_num[15:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
      <wvobject type="array" fp_name="/tb_control/test_pulse_height_raw">
         <obj_property name="ElementShortName">test_pulse_height_raw[15:0]</obj_property>
         <obj_property name="ObjectShortName">test_pulse_height_raw[15:0]</obj_property>
         <obj_property name="CustomSignalColor">#F0E68C</obj_property>
         <obj_property name="UseCustomSignalColor">true</obj_property>
      </wvobject>
   </wvobject>
   <wvobject type="array" fp_name="/tb_control/DAC_DATA_WIDTH">
      <obj_property name="ElementShortName">DAC_DATA_WIDTH[31:0]</obj_property>
      <obj_property name="ObjectShortName">DAC_DATA_WIDTH[31:0]</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/dut/cfg_ack_toggle_adc">
      <obj_property name="ElementShortName">cfg_ack_toggle_adc</obj_property>
      <obj_property name="ObjectShortName">cfg_ack_toggle_adc</obj_property>
   </wvobject>
   <wvobject type="logic" fp_name="/tb_control/dut/cfg_ack_toggle_dac">
      <obj_property name="ElementShortName">cfg_ack_toggle_dac</obj_property>
      <obj_property name="ObjectShortName">cfg_ack_toggle_dac</obj_property>
   </wvobject>
 </wave_config>
--- a/rtl/ethernet-udp/src/eth/axis_mac.sv
+++ b/rtl/ethernet-udp/src/eth/axis_mac.sv
@ -283,6 +283,8 @@ module axis_mac
    reg [31:0] arp_delay;
    reg arp_cached;
    reg write_en_flag;
    always @(posedge gmii_tx_clk or negedge rst_n) begin
        if (!rst_n) begin
            tx_state             <= TX_IDLE;
@ -293,8 +295,8 @@ module axis_mac
            udp_send_data_length <= 16'd0;
            udp_tx_req           <= 1'b0;
            arp_delay            <= 32'b0;
            write_en_flag        <= 1'b0;
            s_axis_tx_tready     <= 1'b0;
            req_ready            <= 1'b0;
            tx_req_len           <= 16'd0;
@ -309,8 +311,8 @@ module axis_mac
            case (tx_state)
                // Ready to accept a new packet request
                TX_IDLE: begin
                    write_en_flag        <= 1'b0;
                    udp_tx_req       <= 1'b0;
                    s_axis_tx_tready <= 1'b0;
                    tx_bytes_written <= 16'd0;
                    tx_req_inflight  <= 1'b0;
@ -340,7 +342,6 @@ module axis_mac
                // Pulse ARP request
                TX_ARP_REQ: begin
                    req_ready        <= 1'b0;
                    s_axis_tx_tready <= 1'b0;
                    udp_tx_req       <= 1'b0;
                    arp_delay        <= 32'ha000000;
@ -350,7 +351,6 @@ module axis_mac
                // Wait until ARP is resolved
                TX_ARP_SEND: begin
                    req_ready        <= 1'b0;
                    s_axis_tx_tready <= 1'b0;
                    udp_tx_req       <= 1'b0;
                    // sent
@ -383,7 +383,7 @@ module axis_mac
                    if (udp_ram_data_req) begin
                        udp_tx_req       <= 1'b0;
-                        s_axis_tx_tready <= 1'b1;
+                        write_en_flag <= 1'b1;
                        tx_state         <= TX_STREAM;
                    end
                end
@ -394,7 +394,6 @@ module axis_mac
                    udp_tx_req <= 1'b0;
                    // keep ready high while receiving payload bytes
                    s_axis_tx_tready <= (tx_bytes_written < tx_req_len);
                    if (s_axis_tx_tvalid && s_axis_tx_tready) begin
                        tx_ram_wr_data <= s_axis_tx_tdata;
@ -403,7 +402,6 @@ module axis_mac
                        tx_bytes_written <= tx_bytes_written + 1'b1;
                        if (tx_bytes_written + 1'b1 >= tx_req_len) begin
                            s_axis_tx_tready <= 1'b0;
                            tx_state         <= TX_WAIT_DRAIN;
                        end
                    end
@ -413,7 +411,8 @@ module axis_mac
                // Wait until TX RAM starts draining enough to allow
                // the next request.
                TX_WAIT_DRAIN: begin
-                    s_axis_tx_tready <= 1'b0;
+                    // s_axis_tx_tready <= 1'b0;
                    write_en_flag        <= 1'b0;
                    udp_tx_req       <= 1'b0;
                    if (udp_ram_data_count <= tx_release_threshold)
@ -425,11 +424,13 @@ module axis_mac
                    tx_state         <= TX_IDLE;
                    tx_ram_wr_en     <= 1'b0;
                    udp_tx_req       <= 1'b0;
                    s_axis_tx_tready <= 1'b0;
                    req_ready        <= 1'b0;
                    write_en_flag        <= 1'b0;
                end
            endcase
        end
    end
    assign s_axis_tx_tready = write_en_flag || udp_ram_data_req;
 endmodule
--- a/rtl/ethernet-udp/src/eth/mac/mac_test.v
+++ b/rtl/ethernet-udp/src/eth/mac/mac_test.v
@ -4,7 +4,7 @@
 //Description :
 //
 //////////////////////////////////////////////////////////////////////////////////////
-`define TEST_SPEED
+//`define TEST_SPEED
 `timescale 1 ns/1 ns
 module mac_test
 (
--- a/rtl/ethernet-udp/tests/eth_axis/Makefile
+++ b/rtl/ethernet-udp/tests/eth_axis/Makefile
@ -7,7 +7,7 @@
 #
 # FPGA settings
-FPGA_PART = xc7a35tfgg484-1
+FPGA_PART = xc7a100tfgg484-2
 FPGA_TOP = ethernet_axis_echo
 FPGA_ARCH = artix7
@ -23,7 +23,7 @@ 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 += debug.xdc
-XDC_FILES += ../../../../constraints/ax7a035b.xdc
+XDC_FILES += ../../../../constraints/ax7102.xdc
 SIM_TOP = tb_mac_test
 TB_FILES = test_axis_mac_rx.sv
--- a/rtl/ethernet-udp/tests/eth_axis/debug.xdc
+++ b/rtl/ethernet-udp/tests/eth_axis/debug.xdc
@ -1,5 +1,36 @@
 # debug ila
 connect_debug_port u_ila_0/clk [get_nets [list rgmii_rxc_IBUF_BUFG]]
 connect_debug_port u_ila_0/probe9 [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]}]]
 connect_debug_port dbg_hub/clk [get_nets rgmii_rxc_IBUF_BUFG]
 connect_debug_port u_ila_0/probe22 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[0]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[1]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[2]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[3]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[4]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[5]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[6]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[7]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[8]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[9]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[10]}]]
 connect_debug_port u_ila_0/probe23 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_datain[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[7]}]]
 connect_debug_port u_ila_0/probe24 [get_nets [list {mac_test0/mac_top0/mac_rx0/ip_total_data_length[0]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[1]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[2]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[3]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[4]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[5]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[6]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[7]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[8]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[9]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[10]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[11]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[12]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[13]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[14]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[15]}]]
 connect_debug_port u_ila_0/probe25 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[7]}]]
 connect_debug_port u_ila_0/probe26 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[10]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[11]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[12]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[13]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[14]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[15]}]]
 connect_debug_port u_ila_0/probe27 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[7]}]]
 connect_debug_port u_ila_0/probe28 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[10]}]]
 connect_debug_port u_ila_0/probe29 [get_nets [list {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[0]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[1]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[2]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[3]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[4]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[5]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[6]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[7]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[8]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[9]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[10]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[11]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[12]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[13]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[14]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[15]}]]
 connect_debug_port u_ila_0/probe30 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/ck_state[0]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[1]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[2]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[3]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[4]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[5]}]]
 connect_debug_port u_ila_0/probe31 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/state[0]} {mac_test0/mac_top0/mac_tx0/udp0/state[1]} {mac_test0/mac_top0/mac_tx0/udp0/state[2]} {mac_test0/mac_top0/mac_tx0/udp0/state[3]} {mac_test0/mac_top0/mac_tx0/udp0/state[4]} {mac_test0/mac_top0/mac_tx0/udp0/state[5]}]]
 connect_debug_port u_ila_0/probe32 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/usedw[0]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[1]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[2]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[3]}]]
 connect_debug_port u_ila_0/probe33 [get_nets [list {mac_test0/mac_top0/mac_tx0/mac_tx_data[0]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[1]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[2]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[3]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[4]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[5]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[6]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[7]}]]
 connect_debug_port u_ila_0/probe34 [get_nets [list {mac_test0/mac_top0/mac_tx0/ram_wr_data[0]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[1]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[2]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[3]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[4]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[5]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[6]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[7]}]]
 connect_debug_port u_ila_0/probe35 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[0]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[1]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[2]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[3]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[4]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[5]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[6]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[7]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[8]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[9]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[10]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[11]}]]
 connect_debug_port u_ila_0/probe36 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_send_data_length[0]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[1]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[2]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[3]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[4]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[5]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[6]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[7]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[8]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[9]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[10]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[11]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[12]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[13]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[14]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[15]}]]
 connect_debug_port u_ila_0/probe37 [get_nets [list {mac_test0/state[0]} {mac_test0/state[1]} {mac_test0/state[2]} {mac_test0/state[3]} {mac_test0/state[4]} {mac_test0/state[5]} {mac_test0/state[6]} {mac_test0/state[7]} {mac_test0/state[8]}]]
 connect_debug_port u_ila_0/probe39 [get_nets [list mac_test0/mac_top0/mac_tx0/almost_full]]
 connect_debug_port u_ila_0/probe45 [get_nets [list mac_test0/mac_top0/mac_tx0/mac_data_valid]]
 connect_debug_port u_ila_0/probe47 [get_nets [list mac_test0/mac_top0/mac_tx0/mac_send_end]]
 connect_debug_port u_ila_0/probe48 [get_nets [list mac_test0/mac_top0/mac_tx0/ram_wr_en]]
 connect_debug_port u_ila_0/probe50 [get_nets [list mac_test0/mac_top0/mac_rx0/udp0/ram_wr_en]]
 connect_debug_port u_ila_0/probe59 [get_nets [list mac_test0/mac_top0/mac_tx0/udp_ram_data_req]]
 connect_debug_port u_ila_0/probe62 [get_nets [list mac_test0/mac_top0/mac_rx0/udp_rec_data_valid]]
 connect_debug_port u_ila_0/probe64 [get_nets [list mac_test0/mac_top0/mac_tx0/udp_tx_end]]
 connect_debug_port u_ila_0/probe66 [get_nets [list mac_test0/mac_top0/mac_tx0/udp_tx_req]]
 connect_debug_port u_ila_0/probe68 [get_nets [list mac_test0/mac_top0/mac_tx0/upper_data_req]]
 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]
@ -10,251 +41,179 @@ 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]]
+connect_debug_port u_ila_0/clk [get_nets [list e_gtxc_OBUF_BUFG]]
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe0]
-set_property port_width 8 [get_debug_ports u_ila_0/probe0]
+set_property port_width 6 [get_debug_ports u_ila_0/probe0]
-connect_debug_port u_ila_0/probe0 [get_nets [list {arbi_inst/rx_buffer_inst/e10_100_rxd[0]} {arbi_inst/rx_buffer_inst/e10_100_rxd[1]} {arbi_inst/rx_buffer_inst/e10_100_rxd[2]} {arbi_inst/rx_buffer_inst/e10_100_rxd[3]} {arbi_inst/rx_buffer_inst/e10_100_rxd[4]} {arbi_inst/rx_buffer_inst/e10_100_rxd[5]} {arbi_inst/rx_buffer_inst/e10_100_rxd[6]} {arbi_inst/rx_buffer_inst/e10_100_rxd[7]}]]
+connect_debug_port u_ila_0/probe0 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/state[0]} {axis_mac0/mac_top0/mac_tx0/udp0/state[1]} {axis_mac0/mac_top0/mac_tx0/udp0/state[2]} {axis_mac0/mac_top0/mac_tx0/udp0/state[3]} {axis_mac0/mac_top0/mac_tx0/udp0/state[4]} {axis_mac0/mac_top0/mac_tx0/udp0/state[5]}]]
 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]
+set_property port_width 6 [get_debug_ports u_ila_0/probe1]
-connect_debug_port u_ila_0/probe1 [get_nets [list {arbi_inst/gmii_rxd[0]} {arbi_inst/gmii_rxd[1]} {arbi_inst/gmii_rxd[2]} {arbi_inst/gmii_rxd[3]} {arbi_inst/gmii_rxd[4]} {arbi_inst/gmii_rxd[5]} {arbi_inst/gmii_rxd[6]} {arbi_inst/gmii_rxd[7]}]]
+connect_debug_port u_ila_0/probe1 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[0]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[1]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[2]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[3]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[4]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[5]}]]
 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]
+set_property port_width 4 [get_debug_ports u_ila_0/probe2]
-connect_debug_port u_ila_0/probe2 [get_nets [list {arbi_inst/gmii_txd[0]} {arbi_inst/gmii_txd[1]} {arbi_inst/gmii_txd[2]} {arbi_inst/gmii_txd[3]} {arbi_inst/gmii_txd[4]} {arbi_inst/gmii_txd[5]} {arbi_inst/gmii_txd[6]} {arbi_inst/gmii_txd[7]}]]
+connect_debug_port u_ila_0/probe2 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/usedw[0]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[1]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[2]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[3]}]]
 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 8 [get_debug_ports u_ila_0/probe3]
-connect_debug_port u_ila_0/probe3 [get_nets [list {arbi_inst/e_txd[0]} {arbi_inst/e_txd[1]} {arbi_inst/e_txd[2]} {arbi_inst/e_txd[3]} {arbi_inst/e_txd[4]} {arbi_inst/e_txd[5]} {arbi_inst/e_txd[6]} {arbi_inst/e_txd[7]}]]
+connect_debug_port u_ila_0/probe3 [get_nets [list {axis_mac0/s_axis_tx_tdata[0]} {axis_mac0/s_axis_tx_tdata[1]} {axis_mac0/s_axis_tx_tdata[2]} {axis_mac0/s_axis_tx_tdata[3]} {axis_mac0/s_axis_tx_tdata[4]} {axis_mac0/s_axis_tx_tdata[5]} {axis_mac0/s_axis_tx_tdata[6]} {axis_mac0/s_axis_tx_tdata[7]}]]
 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 8 [get_debug_ports u_ila_0/probe4]
+set_property port_width 16 [get_debug_ports u_ila_0/probe4]
-connect_debug_port u_ila_0/probe4 [get_nets [list {arbi_inst/e_rxd[0]} {arbi_inst/e_rxd[1]} {arbi_inst/e_rxd[2]} {arbi_inst/e_rxd[3]} {arbi_inst/e_rxd[4]} {arbi_inst/e_rxd[5]} {arbi_inst/e_rxd[6]} {arbi_inst/e_rxd[7]}]]
+connect_debug_port u_ila_0/probe4 [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_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe5]
-set_property port_width 16 [get_debug_ports u_ila_0/probe5]
+set_property port_width 2 [get_debug_ports u_ila_0/probe5]
-connect_debug_port u_ila_0/probe5 [get_nets [list {arbi_inst/tx_buffer_inst/tx_data_cnt[0]} {arbi_inst/tx_buffer_inst/tx_data_cnt[1]} {arbi_inst/tx_buffer_inst/tx_data_cnt[2]} {arbi_inst/tx_buffer_inst/tx_data_cnt[3]} {arbi_inst/tx_buffer_inst/tx_data_cnt[4]} {arbi_inst/tx_buffer_inst/tx_data_cnt[5]} {arbi_inst/tx_buffer_inst/tx_data_cnt[6]} {arbi_inst/tx_buffer_inst/tx_data_cnt[7]} {arbi_inst/tx_buffer_inst/tx_data_cnt[8]} {arbi_inst/tx_buffer_inst/tx_data_cnt[9]} {arbi_inst/tx_buffer_inst/tx_data_cnt[10]} {arbi_inst/tx_buffer_inst/tx_data_cnt[11]} {arbi_inst/tx_buffer_inst/tx_data_cnt[12]} {arbi_inst/tx_buffer_inst/tx_data_cnt[13]} {arbi_inst/tx_buffer_inst/tx_data_cnt[14]} {arbi_inst/tx_buffer_inst/tx_data_cnt[15]}]]
+connect_debug_port u_ila_0/probe5 [get_nets [list {axis_mac0/rx_state[0]} {axis_mac0/rx_state[1]}]]
 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 8 [get_debug_ports u_ila_0/probe6]
-connect_debug_port u_ila_0/probe6 [get_nets [list {arbi_inst/tx_buffer_inst/tx_rdata[0]} {arbi_inst/tx_buffer_inst/tx_rdata[1]} {arbi_inst/tx_buffer_inst/tx_rdata[2]} {arbi_inst/tx_buffer_inst/tx_rdata[3]} {arbi_inst/tx_buffer_inst/tx_rdata[4]} {arbi_inst/tx_buffer_inst/tx_rdata[5]} {arbi_inst/tx_buffer_inst/tx_rdata[6]} {arbi_inst/tx_buffer_inst/tx_rdata[7]}]]
+connect_debug_port u_ila_0/probe6 [get_nets [list {axis_mac0/m_axis_rx_tdata[0]} {axis_mac0/m_axis_rx_tdata[1]} {axis_mac0/m_axis_rx_tdata[2]} {axis_mac0/m_axis_rx_tdata[3]} {axis_mac0/m_axis_rx_tdata[4]} {axis_mac0/m_axis_rx_tdata[5]} {axis_mac0/m_axis_rx_tdata[6]} {axis_mac0/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/probe7]
-set_property port_width 8 [get_debug_ports u_ila_0/probe7]
+set_property port_width 16 [get_debug_ports u_ila_0/probe7]
-connect_debug_port u_ila_0/probe7 [get_nets [list {arbi_inst/tx_buffer_inst/tx_wdata[0]} {arbi_inst/tx_buffer_inst/tx_wdata[1]} {arbi_inst/tx_buffer_inst/tx_wdata[2]} {arbi_inst/tx_buffer_inst/tx_wdata[3]} {arbi_inst/tx_buffer_inst/tx_wdata[4]} {arbi_inst/tx_buffer_inst/tx_wdata[5]} {arbi_inst/tx_buffer_inst/tx_wdata[6]} {arbi_inst/tx_buffer_inst/tx_wdata[7]}]]
+connect_debug_port u_ila_0/probe7 [get_nets [list {axis_mac0/rx_index[0]} {axis_mac0/rx_index[1]} {axis_mac0/rx_index[2]} {axis_mac0/rx_index[3]} {axis_mac0/rx_index[4]} {axis_mac0/rx_index[5]} {axis_mac0/rx_index[6]} {axis_mac0/rx_index[7]} {axis_mac0/rx_index[8]} {axis_mac0/rx_index[9]} {axis_mac0/rx_index[10]} {axis_mac0/rx_index[11]} {axis_mac0/rx_index[12]} {axis_mac0/rx_index[13]} {axis_mac0/rx_index[14]} {axis_mac0/rx_index[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe8]
-set_property port_width 6 [get_debug_ports u_ila_0/probe8]
+set_property port_width 3 [get_debug_ports u_ila_0/probe8]
-connect_debug_port u_ila_0/probe8 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[0]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[1]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[2]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[3]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[4]} {axis_mac0/mac_top0/mac_tx0/udp0/ck_state[5]}]]
+connect_debug_port u_ila_0/probe8 [get_nets [list {axis_mac0/tx_state[0]} {axis_mac0/tx_state[1]} {axis_mac0/tx_state[2]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe9]
-set_property port_width 16 [get_debug_ports u_ila_0/probe9]
+set_property port_width 2 [get_debug_ports u_ila_0/probe9]
-connect_debug_port u_ila_0/probe9 [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]}]]
+connect_debug_port u_ila_0/probe9 [get_nets [list {test_state[0]} {test_state[1]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe10]
-set_property port_width 3 [get_debug_ports u_ila_0/probe10]
+set_property port_width 16 [get_debug_ports u_ila_0/probe10]
-connect_debug_port u_ila_0/probe10 [get_nets [list {axis_mac0/tx_state[0]} {axis_mac0/tx_state[1]} {axis_mac0/tx_state[2]}]]
+connect_debug_port u_ila_0/probe10 [get_nets [list {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[0]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[1]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[2]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[3]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[4]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[5]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[6]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[7]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[8]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[9]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[10]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[11]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[12]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[13]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[14]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe11]
-set_property port_width 8 [get_debug_ports u_ila_0/probe11]
+set_property port_width 11 [get_debug_ports u_ila_0/probe11]
-connect_debug_port u_ila_0/probe11 [get_nets [list {axis_mac0/s_axis_tx_tdata[0]} {axis_mac0/s_axis_tx_tdata[1]} {axis_mac0/s_axis_tx_tdata[2]} {axis_mac0/s_axis_tx_tdata[3]} {axis_mac0/s_axis_tx_tdata[4]} {axis_mac0/s_axis_tx_tdata[5]} {axis_mac0/s_axis_tx_tdata[6]} {axis_mac0/s_axis_tx_tdata[7]}]]
+connect_debug_port u_ila_0/probe11 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[7]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[8]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[9]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[10]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe12]
-set_property port_width 2 [get_debug_ports u_ila_0/probe12]
+set_property port_width 8 [get_debug_ports u_ila_0/probe12]
-connect_debug_port u_ila_0/probe12 [get_nets [list {axis_mac0/rx_state[0]} {axis_mac0/rx_state[1]}]]
+connect_debug_port u_ila_0/probe12 [get_nets [list {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[0]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[1]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[2]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[3]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[4]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[5]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[6]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe13]
 set_property port_width 16 [get_debug_ports u_ila_0/probe13]
-connect_debug_port u_ila_0/probe13 [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]}]]
+connect_debug_port u_ila_0/probe13 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[7]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[8]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[9]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[10]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[11]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[12]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[13]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[14]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe14]
-set_property port_width 16 [get_debug_ports u_ila_0/probe14]
+set_property port_width 8 [get_debug_ports u_ila_0/probe14]
-connect_debug_port u_ila_0/probe14 [get_nets [list {axis_mac0/rx_index[0]} {axis_mac0/rx_index[1]} {axis_mac0/rx_index[2]} {axis_mac0/rx_index[3]} {axis_mac0/rx_index[4]} {axis_mac0/rx_index[5]} {axis_mac0/rx_index[6]} {axis_mac0/rx_index[7]} {axis_mac0/rx_index[8]} {axis_mac0/rx_index[9]} {axis_mac0/rx_index[10]} {axis_mac0/rx_index[11]} {axis_mac0/rx_index[12]} {axis_mac0/rx_index[13]} {axis_mac0/rx_index[14]} {axis_mac0/rx_index[15]}]]
+connect_debug_port u_ila_0/probe14 [get_nets [list {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[0]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[1]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[2]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[3]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[4]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[5]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[6]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe15]
-set_property port_width 8 [get_debug_ports u_ila_0/probe15]
+set_property port_width 16 [get_debug_ports u_ila_0/probe15]
-connect_debug_port u_ila_0/probe15 [get_nets [list {axis_mac0/m_axis_rx_tdata[0]} {axis_mac0/m_axis_rx_tdata[1]} {axis_mac0/m_axis_rx_tdata[2]} {axis_mac0/m_axis_rx_tdata[3]} {axis_mac0/m_axis_rx_tdata[4]} {axis_mac0/m_axis_rx_tdata[5]} {axis_mac0/m_axis_rx_tdata[6]} {axis_mac0/m_axis_rx_tdata[7]}]]
+connect_debug_port u_ila_0/probe15 [get_nets [list {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[0]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[1]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[2]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[3]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[4]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[5]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[6]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[7]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[8]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[9]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[10]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[11]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[12]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[13]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[14]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe16]
-set_property port_width 16 [get_debug_ports u_ila_0/probe16]
+set_property port_width 8 [get_debug_ports u_ila_0/probe16]
-connect_debug_port u_ila_0/probe16 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[0]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[1]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[2]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[3]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[4]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[5]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[6]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[7]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[8]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[9]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[10]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[11]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[12]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[13]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[14]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[15]}]]
+connect_debug_port u_ila_0/probe16 [get_nets [list {axis_mac0/mac_top0/mac_tx0/mac_tx_data[0]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[1]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[2]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[3]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[4]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[5]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[6]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe17]
-set_property port_width 12 [get_debug_ports u_ila_0/probe17]
+set_property port_width 16 [get_debug_ports u_ila_0/probe17]
-connect_debug_port u_ila_0/probe17 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[0]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[1]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[2]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[3]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[4]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[5]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[6]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[7]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[8]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[9]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[10]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[11]}]]
+connect_debug_port u_ila_0/probe17 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[0]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[1]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[2]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[3]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[4]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[5]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[6]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[7]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[8]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[9]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[10]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[11]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[12]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[13]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[14]} {axis_mac0/mac_top0/mac_tx0/udp_send_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe18]
-set_property port_width 8 [get_debug_ports u_ila_0/probe18]
+set_property port_width 12 [get_debug_ports u_ila_0/probe18]
-connect_debug_port u_ila_0/probe18 [get_nets [list {axis_mac0/mac_top0/mac_tx0/ram_wr_data[0]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[1]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[2]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[3]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[4]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[5]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[6]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[7]}]]
+connect_debug_port u_ila_0/probe18 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[0]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[1]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[2]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[3]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[4]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[5]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[6]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[7]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[8]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[9]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[10]} {axis_mac0/mac_top0/mac_tx0/udp_ram_data_count[11]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe19]
 set_property port_width 8 [get_debug_ports u_ila_0/probe19]
-connect_debug_port u_ila_0/probe19 [get_nets [list {axis_mac0/mac_top0/mac_tx0/mac_tx_data[0]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[1]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[2]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[3]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[4]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[5]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[6]} {axis_mac0/mac_top0/mac_tx0/mac_tx_data[7]}]]
+connect_debug_port u_ila_0/probe19 [get_nets [list {axis_mac0/mac_top0/mac_tx0/ram_wr_data[0]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[1]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[2]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[3]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[4]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[5]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[6]} {axis_mac0/mac_top0/mac_tx0/ram_wr_data[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe20]
-set_property port_width 4 [get_debug_ports u_ila_0/probe20]
+set_property port_width 11 [get_debug_ports u_ila_0/probe20]
-connect_debug_port u_ila_0/probe20 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/usedw[0]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[1]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[2]} {axis_mac0/mac_top0/mac_tx0/udp0/usedw[3]}]]
+connect_debug_port u_ila_0/probe20 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[0]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[1]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[2]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[3]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[4]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[5]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[6]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[7]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[8]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[9]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[10]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe21]
-set_property port_width 6 [get_debug_ports u_ila_0/probe21]
+set_property port_width 8 [get_debug_ports u_ila_0/probe21]
-connect_debug_port u_ila_0/probe21 [get_nets [list {axis_mac0/mac_top0/mac_tx0/udp0/state[0]} {axis_mac0/mac_top0/mac_tx0/udp0/state[1]} {axis_mac0/mac_top0/mac_tx0/udp0/state[2]} {axis_mac0/mac_top0/mac_tx0/udp0/state[3]} {axis_mac0/mac_top0/mac_tx0/udp0/state[4]} {axis_mac0/mac_top0/mac_tx0/udp0/state[5]}]]
+connect_debug_port u_ila_0/probe21 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe22]
-set_property port_width 16 [get_debug_ports u_ila_0/probe22]
+set_property port_width 1 [get_debug_ports u_ila_0/probe22]
-connect_debug_port u_ila_0/probe22 [get_nets [list {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[0]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[1]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[2]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[3]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[4]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[5]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[6]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[7]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[8]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[9]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[10]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[11]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[12]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[13]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[14]} {axis_mac0/mac_top0/mac_rx0/upper_layer_data_length[15]}]]
+connect_debug_port u_ila_0/probe22 [get_nets [list axis_mac0/mac_top0/mac_tx0/almost_full]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe23]
-set_property port_width 11 [get_debug_ports u_ila_0/probe23]
+set_property port_width 1 [get_debug_ports u_ila_0/probe23]
-connect_debug_port u_ila_0/probe23 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[7]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[8]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[9]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_read_addr[10]}]]
+connect_debug_port u_ila_0/probe23 [get_nets [list axis_mac0/arp_found]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe24]
-set_property port_width 8 [get_debug_ports u_ila_0/probe24]
+set_property port_width 1 [get_debug_ports u_ila_0/probe24]
-connect_debug_port u_ila_0/probe24 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_ram_rdata[7]}]]
+connect_debug_port u_ila_0/probe24 [get_nets [list axis_mac0/m_axis_rx_tlast]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe25]
-set_property port_width 16 [get_debug_ports u_ila_0/probe25]
+set_property port_width 1 [get_debug_ports u_ila_0/probe25]
-connect_debug_port u_ila_0/probe25 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[0]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[1]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[2]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[3]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[4]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[5]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[6]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[7]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[8]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[9]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[10]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[11]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[12]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[13]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[14]} {axis_mac0/mac_top0/mac_rx0/udp_rec_data_length[15]}]]
+connect_debug_port u_ila_0/probe25 [get_nets [list axis_mac0/m_axis_rx_tready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe26]
-set_property port_width 8 [get_debug_ports u_ila_0/probe26]
+set_property port_width 1 [get_debug_ports u_ila_0/probe26]
-connect_debug_port u_ila_0/probe26 [get_nets [list {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[0]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[1]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[2]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[3]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[4]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[5]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[6]} {axis_mac0/mac_top0/mac_rx0/mac_rx_dataout[7]}]]
+connect_debug_port u_ila_0/probe26 [get_nets [list axis_mac0/m_axis_rx_tvalid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe27]
-set_property port_width 16 [get_debug_ports u_ila_0/probe27]
+set_property port_width 1 [get_debug_ports u_ila_0/probe27]
-connect_debug_port u_ila_0/probe27 [get_nets [list {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[0]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[1]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[2]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[3]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[4]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[5]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[6]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[7]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[8]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[9]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[10]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[11]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[12]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[13]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[14]} {axis_mac0/mac_top0/mac_rx0/ip_total_data_length[15]}]]
+connect_debug_port u_ila_0/probe27 [get_nets [list axis_mac0/mac_top0/mac_tx0/mac_data_valid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe28]
-set_property port_width 8 [get_debug_ports u_ila_0/probe28]
+set_property port_width 1 [get_debug_ports u_ila_0/probe28]
-connect_debug_port u_ila_0/probe28 [get_nets [list {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[0]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[1]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[2]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[3]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[4]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[5]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[6]} {axis_mac0/mac_top0/mac_rx0/mac_rx_datain[7]}]]
+connect_debug_port u_ila_0/probe28 [get_nets [list axis_mac0/mac_top0/mac_tx0/mac_send_end]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe29]
-set_property port_width 11 [get_debug_ports u_ila_0/probe29]
+set_property port_width 1 [get_debug_ports u_ila_0/probe29]
-connect_debug_port u_ila_0/probe29 [get_nets [list {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[0]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[1]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[2]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[3]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[4]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[5]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[6]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[7]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[8]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[9]} {axis_mac0/mac_top0/mac_rx0/udp0/ram_write_addr[10]}]]
+connect_debug_port u_ila_0/probe29 [get_nets [list axis_mac0/mac_top0/mac_rx0/udp0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe30]
-set_property port_width 2 [get_debug_ports u_ila_0/probe30]
+set_property port_width 1 [get_debug_ports u_ila_0/probe30]
-connect_debug_port u_ila_0/probe30 [get_nets [list {test_state[0]} {test_state[1]}]]
+connect_debug_port u_ila_0/probe30 [get_nets [list axis_mac0/mac_top0/mac_tx0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe31]
 set_property port_width 1 [get_debug_ports u_ila_0/probe31]
-connect_debug_port u_ila_0/probe31 [get_nets [list axis_mac0/mac_top0/mac_tx0/almost_full]]
+connect_debug_port u_ila_0/probe31 [get_nets [list req_ready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe32]
 set_property port_width 1 [get_debug_ports u_ila_0/probe32]
-connect_debug_port u_ila_0/probe32 [get_nets [list axis_mac0/arp_found]]
+connect_debug_port u_ila_0/probe32 [get_nets [list axis_mac0/req_ready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe33]
 set_property port_width 1 [get_debug_ports u_ila_0/probe33]
-connect_debug_port u_ila_0/probe33 [get_nets [list arbi_inst/rx_buffer_inst/e10_100_rx_dv]]
+connect_debug_port u_ila_0/probe33 [get_nets [list axis_mac0/s_axis_tx_tlast]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe34]
 set_property port_width 1 [get_debug_ports u_ila_0/probe34]
-connect_debug_port u_ila_0/probe34 [get_nets [list arbi_inst/e_rx_dv]]
+connect_debug_port u_ila_0/probe34 [get_nets [list axis_mac0/s_axis_tx_tready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe35]
 set_property port_width 1 [get_debug_ports u_ila_0/probe35]
-connect_debug_port u_ila_0/probe35 [get_nets [list arbi_inst/e_tx_en]]
+connect_debug_port u_ila_0/probe35 [get_nets [list axis_mac0/s_axis_tx_tvalid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe36]
 set_property port_width 1 [get_debug_ports u_ila_0/probe36]
-connect_debug_port u_ila_0/probe36 [get_nets [list arbi_inst/gmii_rx_dv]]
+connect_debug_port u_ila_0/probe36 [get_nets [list send_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe37]
 set_property port_width 1 [get_debug_ports u_ila_0/probe37]
-connect_debug_port u_ila_0/probe37 [get_nets [list arbi_inst/rx_buffer_inst/gmii_rx_dv_d0]]
+connect_debug_port u_ila_0/probe37 [get_nets [list axis_mac0/send_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe38]
 set_property port_width 1 [get_debug_ports u_ila_0/probe38]
-connect_debug_port u_ila_0/probe38 [get_nets [list arbi_inst/rx_buffer_inst/gmii_rx_dv_d1]]
+connect_debug_port u_ila_0/probe38 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_ram_data_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe39]
 set_property port_width 1 [get_debug_ports u_ila_0/probe39]
-connect_debug_port u_ila_0/probe39 [get_nets [list arbi_inst/gmii_tx_en]]
+connect_debug_port u_ila_0/probe39 [get_nets [list axis_mac0/mac_top0/mac_rx0/udp_rec_data_valid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe40]
 set_property port_width 1 [get_debug_ports u_ila_0/probe40]
-connect_debug_port u_ila_0/probe40 [get_nets [list axis_mac0/m_axis_rx_tlast]]
+connect_debug_port u_ila_0/probe40 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_tx_end]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe41]
 set_property port_width 1 [get_debug_ports u_ila_0/probe41]
-connect_debug_port u_ila_0/probe41 [get_nets [list axis_mac0/m_axis_rx_tready]]
+connect_debug_port u_ila_0/probe41 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_tx_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe42]
 set_property port_width 1 [get_debug_ports u_ila_0/probe42]
-connect_debug_port u_ila_0/probe42 [get_nets [list axis_mac0/m_axis_rx_tvalid]]
+connect_debug_port u_ila_0/probe42 [get_nets [list axis_mac0/mac_top0/mac_tx0/upper_data_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe43]
 set_property port_width 1 [get_debug_ports u_ila_0/probe43]
 connect_debug_port u_ila_0/probe43 [get_nets [list axis_mac0/mac_top0/mac_tx0/mac_data_valid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe44]
 set_property port_width 1 [get_debug_ports u_ila_0/probe44]
 connect_debug_port u_ila_0/probe44 [get_nets [list axis_mac0/mac_top0/mac_tx0/mac_send_end]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe45]
 set_property port_width 1 [get_debug_ports u_ila_0/probe45]
 connect_debug_port u_ila_0/probe45 [get_nets [list axis_mac0/mac_top0/mac_rx0/udp0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe46]
 set_property port_width 1 [get_debug_ports u_ila_0/probe46]
 connect_debug_port u_ila_0/probe46 [get_nets [list axis_mac0/mac_top0/mac_tx0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe47]
 set_property port_width 1 [get_debug_ports u_ila_0/probe47]
 connect_debug_port u_ila_0/probe47 [get_nets [list req_ready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe48]
 set_property port_width 1 [get_debug_ports u_ila_0/probe48]
 connect_debug_port u_ila_0/probe48 [get_nets [list axis_mac0/req_ready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe49]
 set_property port_width 1 [get_debug_ports u_ila_0/probe49]
 connect_debug_port u_ila_0/probe49 [get_nets [list axis_mac0/s_axis_tx_tlast]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe50]
 set_property port_width 1 [get_debug_ports u_ila_0/probe50]
 connect_debug_port u_ila_0/probe50 [get_nets [list axis_mac0/s_axis_tx_tready]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe51]
 set_property port_width 1 [get_debug_ports u_ila_0/probe51]
 connect_debug_port u_ila_0/probe51 [get_nets [list axis_mac0/s_axis_tx_tvalid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe52]
 set_property port_width 1 [get_debug_ports u_ila_0/probe52]
 connect_debug_port u_ila_0/probe52 [get_nets [list axis_mac0/send_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe53]
 set_property port_width 1 [get_debug_ports u_ila_0/probe53]
 connect_debug_port u_ila_0/probe53 [get_nets [list send_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe54]
 set_property port_width 1 [get_debug_ports u_ila_0/probe54]
 connect_debug_port u_ila_0/probe54 [get_nets [list arbi_inst/tx_buffer_inst/tx_rden]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe55]
 set_property port_width 1 [get_debug_ports u_ila_0/probe55]
 connect_debug_port u_ila_0/probe55 [get_nets [list arbi_inst/tx_buffer_inst/tx_wren]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe56]
 set_property port_width 1 [get_debug_ports u_ila_0/probe56]
 connect_debug_port u_ila_0/probe56 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_ram_data_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe57]
 set_property port_width 1 [get_debug_ports u_ila_0/probe57]
 connect_debug_port u_ila_0/probe57 [get_nets [list axis_mac0/mac_top0/mac_rx0/udp_rec_data_valid]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe58]
 set_property port_width 1 [get_debug_ports u_ila_0/probe58]
 connect_debug_port u_ila_0/probe58 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_tx_end]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe59]
 set_property port_width 1 [get_debug_ports u_ila_0/probe59]
 connect_debug_port u_ila_0/probe59 [get_nets [list axis_mac0/mac_top0/mac_tx0/udp_tx_req]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe60]
 set_property port_width 1 [get_debug_ports u_ila_0/probe60]
 connect_debug_port u_ila_0/probe60 [get_nets [list axis_mac0/mac_top0/mac_tx0/upper_data_req]]
 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 rgmii_rxc_IBUF_BUFG]
+connect_debug_port dbg_hub/clk [get_nets e_gtxc_OBUF_BUFG]
--- a/rtl/ethernet-udp/tests/eth_axis/ethernet_axis_echo.v
+++ b/rtl/ethernet-udp/tests/eth_axis/ethernet_axis_echo.v
@ -7,51 +7,38 @@
 module ethernet_axis_echo
 (
-    input               sys_clk_p,
+    input                  sys_clk_p,                    // system clock positive
-    input               sys_clk_n,
+    input                  sys_clk_n,                    // system clock negative 
-    input               rst_n,
+    input                   rst_n,                       // reset ,low active
-    output [3:0]        led,
+    output [3:0]            led,                         // display network rate status
-    output              e_reset,
+    output                  e_reset,                     // phy reset
-    output              e_mdc,
+    output                  e_mdc,                       // phy emdio clock
-    inout               e_mdio,
+    inout                   e_mdio,                      // phy emdio data
-    output [3:0]        rgmii_txd,
+    input	                e_rxc,                       // 125Mhz ethernet gmii rx clock
-    output              rgmii_txctl,
+    input                   e_rxdv,                      // GMII recieving data valid
-    output              rgmii_txc,
+    input                   e_rxer,                      // GMII recieving data error                    
-    input  [3:0]        rgmii_rxd,
+    input [7:0]             e_rxd,                       // GMII recieving data          
-    input               rgmii_rxctl,
+
-    input               rgmii_rxc
+    input                   e_txc,                       // 25Mhz ethernet mii tx clock         
    output                  e_gtxc,                      // 125Mhz ethernet gmii tx clock  
    output                  e_txen,                      // GMII sending data valid    
    output                  e_txer,                      // GMII sending data error                   
    output[7:0]             e_txd                        // GMII sending data 
    );
-
+    wire                    sys_clk;                     //single end clock 
-    // ------------------------------------------------------------
+    wire  [31:0]            pack_total_len ;             //package length
-    // Internal GMII-side signals
+    wire [1:0]              speed      ;                 //net speed select
-    // ------------------------------------------------------------
+    wire                    link       ;                 //link status
-    wire  [7:0] gmii_txd;
+    wire                    erxdv    ;
-    wire        gmii_tx_en;
+    wire [7:0]              erxd      ;
    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 [7:0]              etxd      ;
    wire                    e_rst_n    ;
-    wire        sys_clk;
+    assign e_gtxc = e_rxc;	 
    assign e_reset = 1'b1; 
-    wire        duplex_mode;
+    // generate single end clock
    assign duplex_mode = 1'b1;
    // ------------------------------------------------------------
    // System clock buffer
    // ------------------------------------------------------------
    IBUFDS sys_clk_ibufgds
    (
    .O                      (sys_clk                 ),
@ -59,60 +46,23 @@ module ethernet_axis_echo
    .IB                     (sys_clk_n               )
    );
    // ------------------------------------------------------------
    // IDELAYCTRL
    // ------------------------------------------------------------
    (* IODELAY_GROUP = "rgmii_idelay_group" *)
    IDELAYCTRL IDELAYCTRL_inst (
        .RDY(),
        .REFCLK(sys_clk),
        .RST(1'b0)
    );
-    // ------------------------------------------------------------
+    // Different conversion of GMII data according to different network speeds
    // 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),
+    .clk                    (e_gtxc                 ),
    .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_rx_dv             (e_rxdv                 ),
-        .gmii_rxd       (gmii_rxd_i),
+    .gmii_rxd               (e_rxd                  ),
-        .gmii_tx_en     (gmii_tx_en),
+    .gmii_tx_en             (e_tx_en                ),
-        .gmii_txd       (gmii_txd),
+    .gmii_txd               (etxd                   ), 
-        .e_rx_dv        (e_rx_dv),
+    .e_rx_dv                (erxdv                  ),
-        .e_rxd          (e_rxd),
+    .e_rxd                  (erxd                   ),
-        .e_tx_en        (e_tx_en),
+    .e_tx_en                (e_txen                 ),
    .e_txd                  (e_txd                  ) 
    );
@ -139,14 +89,14 @@ module ethernet_axis_echo
    // ------------------------------------------------------------
    axis_mac axis_mac0
    (
-        .gmii_tx_clk       (gmii_tx_clk),
+        .gmii_tx_clk       (e_gtxc),
-        .gmii_rx_clk       (gmii_rx_clk),
+        .gmii_rx_clk       (e_rxc),
        .rst_n             (e_rst_n),
-        .gmii_rx_dv        (e_rx_dv),
+        .gmii_rx_dv        (erxdv),
-        .gmii_rxd          (e_rxd),
+        .gmii_rxd          (erxd),
-        .gmii_tx_en        (gmii_tx_en),
+        .gmii_tx_en        (e_tx_en),
-        .gmii_txd          (gmii_txd),
+        .gmii_txd          (etxd),
        .send_req          (send_req),
        .data_length       (data_length),
@ -184,7 +134,7 @@ module ethernet_axis_echo
    assign tx_done_pulse_rx = tx_done_toggle_rx_d1 ^ tx_done_toggle_rx_d0;
-    always @(posedge gmii_rx_clk or negedge e_rst_n) begin
+    always @(posedge e_rxc or negedge e_rst_n) begin
        if (!e_rst_n) begin
            tx_done_toggle_rx_d0 <= 1'b0;
            tx_done_toggle_rx_d1 <= 1'b0;
@ -194,7 +144,7 @@ module ethernet_axis_echo
        end
    end
-    always @(posedge gmii_rx_clk or negedge e_rst_n) begin
+    always @(posedge e_rxc or negedge e_rst_n) begin
        if (!e_rst_n) begin
            rx_wr_ptr        <= 16'd0;
            rx_pkt_len       <= 16'd0;
@ -227,7 +177,7 @@ module ethernet_axis_echo
    // sync RX pendind to TX domain
    reg rx_pkt_pending_tx_d0, rx_pkt_pending_tx_d1;
-    always @(posedge gmii_tx_clk or negedge e_rst_n) begin
+    always @(posedge e_gtxc or negedge e_rst_n) begin
        if (!e_rst_n) begin
            rx_pkt_pending_tx_d0 <= 1'b0;
            rx_pkt_pending_tx_d1 <= 1'b0;
@ -253,7 +203,7 @@ module ethernet_axis_echo
    reg [15:0] tx_pkt_len;
    reg [15:0] tx_rd_ptr;
-    always @(posedge gmii_tx_clk or negedge e_rst_n) begin
+    always @(posedge e_gtxc or negedge e_rst_n) begin
        if (!e_rst_n) begin
            test_state       <= TX_IDLE;
            tx_busy          <= 1'b0;
--- a/rtl/ethernet-udp/tests/eth_minimal/Makefile
+++ b/rtl/ethernet-udp/tests/eth_minimal/Makefile
@ -7,7 +7,7 @@
 #
 # FPGA settings
-FPGA_PART = xc7a35tfgg484-1
+FPGA_PART = xc7a100tfgg484-2
 FPGA_TOP = ethernet_test_minimal
 FPGA_ARCH = artix7
@ -23,7 +23,7 @@ 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 += debug.xdc
-XDC_FILES += ../../../../constraints/ax7a035b.xdc
+XDC_FILES += ../../../../constraints/ax7102.xdc
 program: $(PROJECT).bit
 	echo "open_hw_manager" > program.tcl
--- a/rtl/ethernet-udp/tests/eth_minimal/debug.xdc
+++ b/rtl/ethernet-udp/tests/eth_minimal/debug.xdc
@ -1,5 +1,8 @@
 # debug ILA
 connect_debug_port u_ila_0/clk [get_nets [list rgmii_rxc_IBUF_BUFG]]
 connect_debug_port dbg_hub/clk [get_nets rgmii_rxc_IBUF_BUFG]
 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]
@ -10,102 +13,102 @@ 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]]
+connect_debug_port u_ila_0/clk [get_nets [list e_gtxc_OBUF_BUFG]]
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe0]
-set_property port_width 9 [get_debug_ports u_ila_0/probe0]
+set_property port_width 11 [get_debug_ports u_ila_0/probe0]
-connect_debug_port u_ila_0/probe0 [get_nets [list {mac_test0/state[0]} {mac_test0/state[1]} {mac_test0/state[2]} {mac_test0/state[3]} {mac_test0/state[4]} {mac_test0/state[5]} {mac_test0/state[6]} {mac_test0/state[7]} {mac_test0/state[8]}]]
+connect_debug_port u_ila_0/probe0 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[0]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[1]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[2]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[3]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[4]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[5]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[6]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[7]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[8]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[9]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[10]}]]
 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]
+set_property port_width 4 [get_debug_ports u_ila_0/probe1]
-connect_debug_port u_ila_0/probe1 [get_nets [list {arbi_inst/rx_buffer_inst/e10_100_rxd[0]} {arbi_inst/rx_buffer_inst/e10_100_rxd[1]} {arbi_inst/rx_buffer_inst/e10_100_rxd[2]} {arbi_inst/rx_buffer_inst/e10_100_rxd[3]} {arbi_inst/rx_buffer_inst/e10_100_rxd[4]} {arbi_inst/rx_buffer_inst/e10_100_rxd[5]} {arbi_inst/rx_buffer_inst/e10_100_rxd[6]} {arbi_inst/rx_buffer_inst/e10_100_rxd[7]}]]
+connect_debug_port u_ila_0/probe1 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/usedw[0]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[1]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[2]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[3]}]]
 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]
+set_property port_width 6 [get_debug_ports u_ila_0/probe2]
-connect_debug_port u_ila_0/probe2 [get_nets [list {arbi_inst/tx_buffer_inst/tx_wdata[0]} {arbi_inst/tx_buffer_inst/tx_wdata[1]} {arbi_inst/tx_buffer_inst/tx_wdata[2]} {arbi_inst/tx_buffer_inst/tx_wdata[3]} {arbi_inst/tx_buffer_inst/tx_wdata[4]} {arbi_inst/tx_buffer_inst/tx_wdata[5]} {arbi_inst/tx_buffer_inst/tx_wdata[6]} {arbi_inst/tx_buffer_inst/tx_wdata[7]}]]
+connect_debug_port u_ila_0/probe2 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/state[0]} {mac_test0/mac_top0/mac_tx0/udp0/state[1]} {mac_test0/mac_top0/mac_tx0/udp0/state[2]} {mac_test0/mac_top0/mac_tx0/udp0/state[3]} {mac_test0/mac_top0/mac_tx0/udp0/state[4]} {mac_test0/mac_top0/mac_tx0/udp0/state[5]}]]
 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 8 [get_debug_ports u_ila_0/probe3]
+set_property port_width 9 [get_debug_ports u_ila_0/probe3]
-connect_debug_port u_ila_0/probe3 [get_nets [list {arbi_inst/tx_buffer_inst/tx_rdata[0]} {arbi_inst/tx_buffer_inst/tx_rdata[1]} {arbi_inst/tx_buffer_inst/tx_rdata[2]} {arbi_inst/tx_buffer_inst/tx_rdata[3]} {arbi_inst/tx_buffer_inst/tx_rdata[4]} {arbi_inst/tx_buffer_inst/tx_rdata[5]} {arbi_inst/tx_buffer_inst/tx_rdata[6]} {arbi_inst/tx_buffer_inst/tx_rdata[7]}]]
+connect_debug_port u_ila_0/probe3 [get_nets [list {mac_test0/state[0]} {mac_test0/state[1]} {mac_test0/state[2]} {mac_test0/state[3]} {mac_test0/state[4]} {mac_test0/state[5]} {mac_test0/state[6]} {mac_test0/state[7]} {mac_test0/state[8]}]]
 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 16 [get_debug_ports u_ila_0/probe4]
-connect_debug_port u_ila_0/probe4 [get_nets [list {arbi_inst/tx_buffer_inst/tx_data_cnt[0]} {arbi_inst/tx_buffer_inst/tx_data_cnt[1]} {arbi_inst/tx_buffer_inst/tx_data_cnt[2]} {arbi_inst/tx_buffer_inst/tx_data_cnt[3]} {arbi_inst/tx_buffer_inst/tx_data_cnt[4]} {arbi_inst/tx_buffer_inst/tx_data_cnt[5]} {arbi_inst/tx_buffer_inst/tx_data_cnt[6]} {arbi_inst/tx_buffer_inst/tx_data_cnt[7]} {arbi_inst/tx_buffer_inst/tx_data_cnt[8]} {arbi_inst/tx_buffer_inst/tx_data_cnt[9]} {arbi_inst/tx_buffer_inst/tx_data_cnt[10]} {arbi_inst/tx_buffer_inst/tx_data_cnt[11]} {arbi_inst/tx_buffer_inst/tx_data_cnt[12]} {arbi_inst/tx_buffer_inst/tx_data_cnt[13]} {arbi_inst/tx_buffer_inst/tx_data_cnt[14]} {arbi_inst/tx_buffer_inst/tx_data_cnt[15]}]]
+connect_debug_port u_ila_0/probe4 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_send_data_length[0]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[1]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[2]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[3]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[4]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[5]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[6]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[7]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[8]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[9]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[10]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[11]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[12]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[13]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[14]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[15]}]]
 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 16 [get_debug_ports u_ila_0/probe5]
+set_property port_width 12 [get_debug_ports u_ila_0/probe5]
-connect_debug_port u_ila_0/probe5 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_send_data_length[0]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[1]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[2]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[3]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[4]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[5]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[6]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[7]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[8]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[9]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[10]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[11]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[12]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[13]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[14]} {mac_test0/mac_top0/mac_tx0/udp_send_data_length[15]}]]
+connect_debug_port u_ila_0/probe5 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[0]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[1]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[2]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[3]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[4]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[5]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[6]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[7]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[8]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[9]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[10]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[11]}]]
 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 12 [get_debug_ports u_ila_0/probe6]
+set_property port_width 8 [get_debug_ports u_ila_0/probe6]
-connect_debug_port u_ila_0/probe6 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[0]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[1]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[2]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[3]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[4]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[5]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[6]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[7]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[8]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[9]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[10]} {mac_test0/mac_top0/mac_tx0/udp_ram_data_count[11]}]]
+connect_debug_port u_ila_0/probe6 [get_nets [list {mac_test0/mac_top0/mac_tx0/ram_wr_data[0]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[1]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[2]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[3]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[4]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[5]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[6]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe7]
 set_property port_width 8 [get_debug_ports u_ila_0/probe7]
-connect_debug_port u_ila_0/probe7 [get_nets [list {mac_test0/mac_top0/mac_tx0/ram_wr_data[0]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[1]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[2]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[3]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[4]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[5]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[6]} {mac_test0/mac_top0/mac_tx0/ram_wr_data[7]}]]
+connect_debug_port u_ila_0/probe7 [get_nets [list {mac_test0/mac_top0/mac_tx0/mac_tx_data[0]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[1]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[2]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[3]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[4]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[5]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[6]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe8]
-set_property port_width 8 [get_debug_ports u_ila_0/probe8]
+set_property port_width 6 [get_debug_ports u_ila_0/probe8]
-connect_debug_port u_ila_0/probe8 [get_nets [list {mac_test0/mac_top0/mac_tx0/mac_tx_data[0]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[1]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[2]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[3]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[4]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[5]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[6]} {mac_test0/mac_top0/mac_tx0/mac_tx_data[7]}]]
+connect_debug_port u_ila_0/probe8 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/ck_state[0]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[1]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[2]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[3]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[4]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[5]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe9]
-set_property port_width 4 [get_debug_ports u_ila_0/probe9]
+set_property port_width 16 [get_debug_ports u_ila_0/probe9]
-connect_debug_port u_ila_0/probe9 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/usedw[0]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[1]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[2]} {mac_test0/mac_top0/mac_tx0/udp0/usedw[3]}]]
+connect_debug_port u_ila_0/probe9 [get_nets [list {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[0]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[1]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[2]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[3]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[4]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[5]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[6]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[7]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[8]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[9]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[10]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[11]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[12]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[13]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[14]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe10]
-set_property port_width 6 [get_debug_ports u_ila_0/probe10]
+set_property port_width 11 [get_debug_ports u_ila_0/probe10]
-connect_debug_port u_ila_0/probe10 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/state[0]} {mac_test0/mac_top0/mac_tx0/udp0/state[1]} {mac_test0/mac_top0/mac_tx0/udp0/state[2]} {mac_test0/mac_top0/mac_tx0/udp0/state[3]} {mac_test0/mac_top0/mac_tx0/udp0/state[4]} {mac_test0/mac_top0/mac_tx0/udp0/state[5]}]]
+connect_debug_port u_ila_0/probe10 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[10]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe11]
-set_property port_width 6 [get_debug_ports u_ila_0/probe11]
+set_property port_width 8 [get_debug_ports u_ila_0/probe11]
-connect_debug_port u_ila_0/probe11 [get_nets [list {mac_test0/mac_top0/mac_tx0/udp0/ck_state[0]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[1]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[2]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[3]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[4]} {mac_test0/mac_top0/mac_tx0/udp0/ck_state[5]}]]
+connect_debug_port u_ila_0/probe11 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe12]
 set_property port_width 16 [get_debug_ports u_ila_0/probe12]
-connect_debug_port u_ila_0/probe12 [get_nets [list {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[0]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[1]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[2]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[3]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[4]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[5]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[6]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[7]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[8]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[9]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[10]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[11]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[12]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[13]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[14]} {mac_test0/mac_top0/mac_rx0/upper_layer_data_length[15]}]]
+connect_debug_port u_ila_0/probe12 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[10]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[11]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[12]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[13]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[14]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe13]
-set_property port_width 11 [get_debug_ports u_ila_0/probe13]
+set_property port_width 8 [get_debug_ports u_ila_0/probe13]
-connect_debug_port u_ila_0/probe13 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_read_addr[10]}]]
+connect_debug_port u_ila_0/probe13 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe14]
-set_property port_width 8 [get_debug_ports u_ila_0/probe14]
+set_property port_width 16 [get_debug_ports u_ila_0/probe14]
-connect_debug_port u_ila_0/probe14 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_ram_rdata[7]}]]
+connect_debug_port u_ila_0/probe14 [get_nets [list {mac_test0/mac_top0/mac_rx0/ip_total_data_length[0]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[1]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[2]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[3]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[4]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[5]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[6]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[7]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[8]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[9]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[10]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[11]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[12]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[13]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[14]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe15]
-set_property port_width 16 [get_debug_ports u_ila_0/probe15]
+set_property port_width 8 [get_debug_ports u_ila_0/probe15]
-connect_debug_port u_ila_0/probe15 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[0]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[1]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[2]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[3]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[4]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[5]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[6]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[7]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[8]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[9]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[10]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[11]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[12]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[13]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[14]} {mac_test0/mac_top0/mac_rx0/udp_rec_data_length[15]}]]
+connect_debug_port u_ila_0/probe15 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_datain[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe16]
 set_property port_width 8 [get_debug_ports u_ila_0/probe16]
-connect_debug_port u_ila_0/probe16 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_dataout[7]}]]
+connect_debug_port u_ila_0/probe16 [get_nets [list {arbi_inst/gmii_txd[0]} {arbi_inst/gmii_txd[1]} {arbi_inst/gmii_txd[2]} {arbi_inst/gmii_txd[3]} {arbi_inst/gmii_txd[4]} {arbi_inst/gmii_txd[5]} {arbi_inst/gmii_txd[6]} {arbi_inst/gmii_txd[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe17]
-set_property port_width 16 [get_debug_ports u_ila_0/probe17]
+set_property port_width 8 [get_debug_ports u_ila_0/probe17]
-connect_debug_port u_ila_0/probe17 [get_nets [list {mac_test0/mac_top0/mac_rx0/ip_total_data_length[0]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[1]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[2]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[3]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[4]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[5]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[6]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[7]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[8]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[9]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[10]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[11]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[12]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[13]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[14]} {mac_test0/mac_top0/mac_rx0/ip_total_data_length[15]}]]
+connect_debug_port u_ila_0/probe17 [get_nets [list {arbi_inst/gmii_rxd[0]} {arbi_inst/gmii_rxd[1]} {arbi_inst/gmii_rxd[2]} {arbi_inst/gmii_rxd[3]} {arbi_inst/gmii_rxd[4]} {arbi_inst/gmii_rxd[5]} {arbi_inst/gmii_rxd[6]} {arbi_inst/gmii_rxd[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe18]
 set_property port_width 8 [get_debug_ports u_ila_0/probe18]
-connect_debug_port u_ila_0/probe18 [get_nets [list {mac_test0/mac_top0/mac_rx0/mac_rx_datain[0]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[1]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[2]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[3]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[4]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[5]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[6]} {mac_test0/mac_top0/mac_rx0/mac_rx_datain[7]}]]
+connect_debug_port u_ila_0/probe18 [get_nets [list {arbi_inst/e_txd[0]} {arbi_inst/e_txd[1]} {arbi_inst/e_txd[2]} {arbi_inst/e_txd[3]} {arbi_inst/e_txd[4]} {arbi_inst/e_txd[5]} {arbi_inst/e_txd[6]} {arbi_inst/e_txd[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe19]
-set_property port_width 11 [get_debug_ports u_ila_0/probe19]
+set_property port_width 8 [get_debug_ports u_ila_0/probe19]
-connect_debug_port u_ila_0/probe19 [get_nets [list {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[0]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[1]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[2]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[3]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[4]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[5]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[6]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[7]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[8]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[9]} {mac_test0/mac_top0/mac_rx0/udp0/ram_write_addr[10]}]]
+connect_debug_port u_ila_0/probe19 [get_nets [list {arbi_inst/e_rxd[0]} {arbi_inst/e_rxd[1]} {arbi_inst/e_rxd[2]} {arbi_inst/e_rxd[3]} {arbi_inst/e_rxd[4]} {arbi_inst/e_rxd[5]} {arbi_inst/e_rxd[6]} {arbi_inst/e_rxd[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe20]
 set_property port_width 8 [get_debug_ports u_ila_0/probe20]
-connect_debug_port u_ila_0/probe20 [get_nets [list {arbi_inst/gmii_txd[0]} {arbi_inst/gmii_txd[1]} {arbi_inst/gmii_txd[2]} {arbi_inst/gmii_txd[3]} {arbi_inst/gmii_txd[4]} {arbi_inst/gmii_txd[5]} {arbi_inst/gmii_txd[6]} {arbi_inst/gmii_txd[7]}]]
+connect_debug_port u_ila_0/probe20 [get_nets [list {arbi_inst/tx_buffer_inst/tx_wdata[0]} {arbi_inst/tx_buffer_inst/tx_wdata[1]} {arbi_inst/tx_buffer_inst/tx_wdata[2]} {arbi_inst/tx_buffer_inst/tx_wdata[3]} {arbi_inst/tx_buffer_inst/tx_wdata[4]} {arbi_inst/tx_buffer_inst/tx_wdata[5]} {arbi_inst/tx_buffer_inst/tx_wdata[6]} {arbi_inst/tx_buffer_inst/tx_wdata[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe21]
 set_property port_width 8 [get_debug_ports u_ila_0/probe21]
-connect_debug_port u_ila_0/probe21 [get_nets [list {arbi_inst/gmii_rxd[0]} {arbi_inst/gmii_rxd[1]} {arbi_inst/gmii_rxd[2]} {arbi_inst/gmii_rxd[3]} {arbi_inst/gmii_rxd[4]} {arbi_inst/gmii_rxd[5]} {arbi_inst/gmii_rxd[6]} {arbi_inst/gmii_rxd[7]}]]
+connect_debug_port u_ila_0/probe21 [get_nets [list {arbi_inst/tx_buffer_inst/tx_rdata[0]} {arbi_inst/tx_buffer_inst/tx_rdata[1]} {arbi_inst/tx_buffer_inst/tx_rdata[2]} {arbi_inst/tx_buffer_inst/tx_rdata[3]} {arbi_inst/tx_buffer_inst/tx_rdata[4]} {arbi_inst/tx_buffer_inst/tx_rdata[5]} {arbi_inst/tx_buffer_inst/tx_rdata[6]} {arbi_inst/tx_buffer_inst/tx_rdata[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe22]
-set_property port_width 8 [get_debug_ports u_ila_0/probe22]
+set_property port_width 16 [get_debug_ports u_ila_0/probe22]
-connect_debug_port u_ila_0/probe22 [get_nets [list {arbi_inst/e_txd[0]} {arbi_inst/e_txd[1]} {arbi_inst/e_txd[2]} {arbi_inst/e_txd[3]} {arbi_inst/e_txd[4]} {arbi_inst/e_txd[5]} {arbi_inst/e_txd[6]} {arbi_inst/e_txd[7]}]]
+connect_debug_port u_ila_0/probe22 [get_nets [list {arbi_inst/tx_buffer_inst/tx_data_cnt[0]} {arbi_inst/tx_buffer_inst/tx_data_cnt[1]} {arbi_inst/tx_buffer_inst/tx_data_cnt[2]} {arbi_inst/tx_buffer_inst/tx_data_cnt[3]} {arbi_inst/tx_buffer_inst/tx_data_cnt[4]} {arbi_inst/tx_buffer_inst/tx_data_cnt[5]} {arbi_inst/tx_buffer_inst/tx_data_cnt[6]} {arbi_inst/tx_buffer_inst/tx_data_cnt[7]} {arbi_inst/tx_buffer_inst/tx_data_cnt[8]} {arbi_inst/tx_buffer_inst/tx_data_cnt[9]} {arbi_inst/tx_buffer_inst/tx_data_cnt[10]} {arbi_inst/tx_buffer_inst/tx_data_cnt[11]} {arbi_inst/tx_buffer_inst/tx_data_cnt[12]} {arbi_inst/tx_buffer_inst/tx_data_cnt[13]} {arbi_inst/tx_buffer_inst/tx_data_cnt[14]} {arbi_inst/tx_buffer_inst/tx_data_cnt[15]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe23]
 set_property port_width 8 [get_debug_ports u_ila_0/probe23]
-connect_debug_port u_ila_0/probe23 [get_nets [list {arbi_inst/e_rxd[0]} {arbi_inst/e_rxd[1]} {arbi_inst/e_rxd[2]} {arbi_inst/e_rxd[3]} {arbi_inst/e_rxd[4]} {arbi_inst/e_rxd[5]} {arbi_inst/e_rxd[6]} {arbi_inst/e_rxd[7]}]]
+connect_debug_port u_ila_0/probe23 [get_nets [list {arbi_inst/rx_buffer_inst/e10_100_rxd[0]} {arbi_inst/rx_buffer_inst/e10_100_rxd[1]} {arbi_inst/rx_buffer_inst/e10_100_rxd[2]} {arbi_inst/rx_buffer_inst/e10_100_rxd[3]} {arbi_inst/rx_buffer_inst/e10_100_rxd[4]} {arbi_inst/rx_buffer_inst/e10_100_rxd[5]} {arbi_inst/rx_buffer_inst/e10_100_rxd[6]} {arbi_inst/rx_buffer_inst/e10_100_rxd[7]}]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe24]
 set_property port_width 1 [get_debug_ports u_ila_0/probe24]
@ -149,11 +152,11 @@ connect_debug_port u_ila_0/probe33 [get_nets [list mac_test0/mac_top0/mac_tx0/ma
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe34]
 set_property port_width 1 [get_debug_ports u_ila_0/probe34]
-connect_debug_port u_ila_0/probe34 [get_nets [list mac_test0/mac_top0/mac_rx0/udp0/ram_wr_en]]
+connect_debug_port u_ila_0/probe34 [get_nets [list mac_test0/mac_top0/mac_tx0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe35]
 set_property port_width 1 [get_debug_ports u_ila_0/probe35]
-connect_debug_port u_ila_0/probe35 [get_nets [list mac_test0/mac_top0/mac_tx0/ram_wr_en]]
+connect_debug_port u_ila_0/probe35 [get_nets [list mac_test0/mac_top0/mac_rx0/udp0/ram_wr_en]]
 create_debug_port u_ila_0 probe
 set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe36]
 set_property port_width 1 [get_debug_ports u_ila_0/probe36]
@ -185,4 +188,4 @@ connect_debug_port u_ila_0/probe42 [get_nets [list mac_test0/mac_top0/mac_tx0/up
 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 rgmii_rxc_IBUF_BUFG]
+connect_debug_port dbg_hub/clk [get_nets e_gtxc_OBUF_BUFG]
--- a/rtl/ethernet-udp/tests/eth_minimal/ethernet_test_minimal.v
+++ b/rtl/ethernet-udp/tests/eth_minimal/ethernet_test_minimal.v
@ -1,4 +1,8 @@
-module ethernet_test_minimal
+`timescale 1ns / 1ps  
 //////////////////////////////////////////////////////////////////////////////////
 // Module Name:    ethernet_test 
 //////////////////////////////////////////////////////////////////////////////////
 module ethernet_test
 (
 input                  sys_clk_p,                    // system clock positive
 input                  sys_clk_n,                    // system clock negative 
@ -7,45 +11,31 @@ output [3:0]        led,                             //display network rate stat
 output                  e_reset,                     // phy reset
 output                  e_mdc,                       // phy emdio clock
 inout                   e_mdio,                      // phy emdio data
-output[3:0]         rgmii_txd,                       //phy data send
+input	                e_rxc,                       // 125Mhz ethernet gmii rx clock
-output              rgmii_txctl,                     //phy data send control
+input                   e_rxdv,                      // GMII recieving data valid
-output              rgmii_txc,                       //Clock for sending data
+input                   e_rxer,                      // GMII recieving data error                    
-input[3:0]          rgmii_rxd,                       //recieve data
+input [7:0]             e_rxd,                       // GMII recieving data          
-input               rgmii_rxctl,                     //Control signal for receiving data
+
-input               rgmii_rxc                        //Clock for recieving data
+input                   e_txc,                       // 25Mhz ethernet mii tx clock         
 output                  e_gtxc,                      // 125Mhz ethernet gmii tx clock  
 output                  e_txen,                      // GMII sending data valid    
 output                  e_txer,                      // GMII sending data error                   
 output[7:0]             e_txd                        // GMII sending data 
 );
-wire   [ 7:0]       gmii_txd;                       //gmii data                
+wire                    sys_clk;                     //single end clock 
 wire                gmii_tx_en;                     //gmii send enable
 wire                gmii_tx_er;
 wire                gmii_tx_clk;                    //gmii send clock
 wire                gmii_crs;
 wire                gmii_col;
 wire   [ 7:0]       gmii_rxd;                       //gmii recieving data                    
 wire                gmii_rx_dv;                     //gmii recieving data valid
 wire                gmii_rx_er;
 wire                gmii_rx_clk;                    //gmii recieve clock
 wire  [ 1:0]        speed_selection;                // 1x gigabit, 01 100Mbps, 00 10mbps
 wire                duplex_mode;                    // 1 full, 0 half
 wire                rgmii_rxcpll;
 wire  [31:0]            pack_total_len ;             //package length
 wire [1:0]              speed      ;                 //net speed select
 wire                    link       ;                 //link status
-wire                e_rx_dv    ;
+wire                    erxdv    ;
-wire [7:0]          e_rxd      ;
+wire [7:0]              erxd      ;
 wire                    e_tx_en    ;
-wire [7:0]          e_txd      ;
+wire [7:0]              etxd      ;
 wire                    e_rst_n    ;
-wire                sys_clk    ;
+assign e_gtxc = e_rxc;	 
 assign e_reset = 1'b1; 
 // generate single end clock
 assign duplex_mode = 1'b1;
 /*************************************************************************
 generate single end clock
 **************************************************************************/
 IBUFDS sys_clk_ibufgds
 (
 .O                      (sys_clk                 ),
@ -53,82 +43,35 @@ IBUFDS sys_clk_ibufgds
 .IB                     (sys_clk_n               )
 );
-(* IODELAY_GROUP = "rgmii_idelay_group" *) // Specifies group name for associated IDELAYs/ODELAYs and IDELAYCTRL
+// Mac layer protocol test
-
+mac_test mac_test0
 IDELAYCTRL IDELAYCTRL_inst (
 .RDY(),       // 1-bit output: Ready output
 .REFCLK(sys_clk), // 1-bit input: Reference clock input
 .RST(1'b0)        // 1-bit input: Active high reset input
 );
 /*************************************************************************
 GMII and RGMII data conversion
 ****************************************************************************/
 util_gmii_to_rgmii util_gmii_to_rgmii_m0
 (
-.reset              (1'b0                   ),
+.gmii_tx_clk            (e_gtxc                 ),
-.rgmii_td           (rgmii_txd              ),
+.gmii_rx_clk            (e_rxc                  ) ,
-.rgmii_tx_ctl       (rgmii_txctl            ),
+.rst_n                  (e_rst_n                ),
-.rgmii_txc          (rgmii_txc              ),
+.pack_total_len         (pack_total_len         ),
-.rgmii_rd           (rgmii_rxd              ),
+.gmii_rx_dv             (erxdv                  ),
-.rgmii_rx_ctl       (rgmii_rxctl            ),
+.gmii_rxd               (erxd                   ),
 .gmii_rx_clk        (gmii_rx_clk            ),
 .gmii_txd           (e_txd                  ),
 .gmii_tx_en             (e_tx_en                ),
-.gmii_tx_er         (1'b0                   ),
+.gmii_txd               (etxd                   )
 .gmii_tx_clk        (gmii_tx_clk            ),
 .gmii_crs           (gmii_crs               ),
 .gmii_col           (gmii_col               ),
 .gmii_rxd           (gmii_rxd               ),
 .rgmii_rxc          (rgmii_rxc              ),//add
 .gmii_rx_dv         (gmii_rx_dv             ),
 .gmii_rx_er         (gmii_rx_er             ),
 .speed_selection    (2'b10                  ),
 .duplex_mode        (duplex_mode            )
 ); 
 /*************************************************************************
 Different conversion of GMII data according to different network speeds
 ****************************************************************************/
 // Different conversion of GMII data according to different network speeds
 gmii_arbi arbi_inst
 (
-.clk                (gmii_tx_clk            ),
+.clk                    (e_gtxc                 ),
 .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_rx_dv             (e_rxdv                 ),
-.gmii_rxd           (gmii_rxd               ),
+.gmii_rxd               (e_rxd                  ),
-.gmii_tx_en         (gmii_tx_en             ),
+.gmii_tx_en             (e_tx_en                ),
-.gmii_txd           (gmii_txd               ), 
+.gmii_txd               (etxd                   ), 
-.e_rx_dv            (e_rx_dv                ),
+.e_rx_dv                (erxdv                  ),
-.e_rxd              (e_rxd                  ),
+.e_rxd                  (erxd                   ),
-.e_tx_en            (e_tx_en                ),
+.e_tx_en                (e_txen                 ),
 .e_txd                  (e_txd                  ) 
 );
 /*************************************************************************
 Mac layer protocol test
 ****************************************************************************/
 mac_test mac_test0
 (
 .gmii_tx_clk        (gmii_tx_clk            ),
 .gmii_rx_clk        (gmii_rx_clk            ) ,
 .rst_n              (e_rst_n                ),
 .pack_total_len     (pack_total_len         ),
 .gmii_rx_dv         (e_rx_dv                ),
 .gmii_rxd           (e_rxd                  ),
 .gmii_tx_en         (gmii_tx_en             ),
 .gmii_txd           (gmii_txd               )
 ); 
 /*************************************************************************
 Generate PHY reset signal
 ****************************************************************************/
 reset reset_m0
 (
 .clk                (sys_clk                ),
 .key1               (rst_n                  ),
 .rst_n              (e_reset                )
 );
 endmodule
--- a/rtl/generator/src/generator.sv
+++ b/rtl/generator/src/generator.sv
@ -0,0 +1,105 @@
 `timescale 1ns / 1ps
 module generator
 #(
    parameter DATA_WIDTH = 14,
    parameter ZERO_LEVEL = 8192 // 8192 or 0
    )
 (
    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,
    input sample_done,
    output pulse,
    output[DATA_WIDTH-1:0] pulse_height_out,
    output logic sample_req
    );
  (* MARK_DEBUG="true" *)  logic [DATA_WIDTH-1:0] pulse_height_reg, pulse_height_out_reg;
  (* MARK_DEBUG="true" *)  logic [31:0] pulse_width_reg, pulse_period_reg;
  (* MARK_DEBUG="true" *)  logic [15:0] pulse_num_reg;
  (* MARK_DEBUG="true" *)  logic enable;
  (* MARK_DEBUG="true" *)  logic [15:0] cnt_pulse_num;
  (* MARK_DEBUG="true" *)  logic [31:0] cnt_period;
    always @(posedge clk_in) begin
        if (rst) begin
            pulse_height_reg <= ZERO_LEVEL;
            pulse_height_out_reg <= ZERO_LEVEL;
            pulse_width_reg <= '0;
            pulse_period_reg <= '0;
            pulse_num_reg <= '0;
            enable <= 0;
            cnt_pulse_num <= '0;
            cnt_period <= '0;
            sample_req <= 0;
        end else begin
            if (start & !enable) begin
                enable <= 1'b1;
                cnt_pulse_num <= '0;
                cnt_period <= '0;
                sample_req <= 1;
                pulse_width_reg <= pulse_width;
                pulse_period_reg <= pulse_period;
                pulse_num_reg <= pulse_num;
                pulse_height_reg <= pulse_height;
            end 
            if (enable) begin
                if (!sample_req && (cnt_period == 0)) begin
                    pulse_height_out_reg <= ZERO_LEVEL;
                    if (sample_done) begin
                        sample_req <= 1'b0;
                    end
                    if (!sample_done) begin
                        if (cnt_pulse_num == pulse_num_reg - 1) begin
                            enable <= 1'b0;
                        end
                        else begin
                            cnt_pulse_num <= cnt_pulse_num + 1;
                            sample_req <= 1'b1;
                            cnt_period <= 1;
                        end
                    end
                end
                 else begin
                    if (cnt_period <= pulse_width_reg) begin
                        pulse_height_out_reg <= pulse_height_reg;
                    end else begin
                        pulse_height_out_reg <= ZERO_LEVEL;
                    end
                    if (cnt_period == pulse_period_reg) begin
                        cnt_period <= 0;
                    end else begin
                        cnt_period <= cnt_period + 1;
                    end
                    if (sample_req && sample_done) begin
                        sample_req <= 0;
                    end
                end
            end
        end
    end
     OBUF OBUF_pulse_clk (
        .I(clk_in),
        .O(pulse)
    );
    assign pulse_height_out = pulse_height_out_reg;
 endmodule
--- a/rtl/generator/tests/generator_tb.sv
+++ b/rtl/generator/tests/generator_tb.sv
@ -0,0 +1,106 @@
 `timescale 1ns / 1ps
 module generator_tb;
    parameter DATA_WIDTH = 14;
    parameter ZERO_LEVEL = 8192;
    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
--- a/rtl/generator/tests/generator_tests.sv
+++ b/rtl/generator/tests/generator_tests.sv
--- a/rtl/sampler/README.md
+++ b/rtl/sampler/README.md
@ -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".
--- a/rtl/sampler/src/sampler.sv
+++ b/rtl/sampler/src/sampler.sv
@ -0,0 +1,154 @@
 `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,
    input [31:0] smp_num,
    input sample_req,
    output logic [DATA_WIDTH*PACK_FACTOR-1:0]  m_axis_tdata,
    output logic                              m_axis_tvalid,
    output logic sample_done
    );
   (* MARK_DEBUG="true" *) logic [DATA_WIDTH-1:0] data_converted;
   (* MARK_DEBUG="true" *) logic out_of_range_reg;
    (* MARK_DEBUG="true" *) logic [31:0] smp_num_reg, cnt_smp_num;
   (* MARK_DEBUG="true" *) logic enable;
    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
  (* MARK_DEBUG="true" *)  logic [DATA_WIDTH*PACK_FACTOR-1:0] buffer;
  (* MARK_DEBUG="true" *)  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;
                cnt_smp_num <= '0;
                smp_num_reg <= '0;
                enable <= '0;
                sample_done <= 0;
            end
            else begin
                buffer_ready <= 0;
                if (sample_done && !sample_req) begin
                    sample_done <= 1'b0;
                end
                if (!enable && sample_req && !sample_done) begin
                    enable      <= 1;
                    cnt_smp_num <= 0;
                    smp_num_reg <= smp_num;
                end
                if (enable) begin
                    if (!out_of_range_reg) begin
                        if (cnt_smp_num != smp_num_reg) begin
                            buffer       <= data_converted;
                            buffer_ready <= 1;
                            cnt_smp_num <= cnt_smp_num +1;
                        end 
                        else begin
                            cnt_smp_num <= '0;
                            sample_done <= 1'b1;
                            buffer_ready <= 0;
                            buffer <= '0;
                            enable <= 0;
                        end
                    end
                end
            end
        end
      end  else begin
        always @(posedge clk_in) begin
            if (rst) begin
                buffer <= '0;
                cnt <= '0; //
                buffer_ready <= 0;
                cnt_smp_num <= '0;
                smp_num_reg <= '0;
                enable <= 0;
                sample_done <= 0;
            end
            else begin
                buffer_ready <= 0;
                if (sample_done && !sample_req) begin
                    sample_done <= 1'b0;
                end
                if (!enable && sample_req && !sample_done) begin
                    enable      <= 1;
                    cnt_smp_num <= 0;
                    smp_num_reg <= smp_num;
                end
                if (enable) begin
                    if (!out_of_range_reg) begin
                        if (cnt_smp_num != smp_num_reg) begin
                            cnt_smp_num <= cnt_smp_num +1;
                            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 
                        else begin
                            sample_done <= 1'b1;
                            cnt_smp_num <= '0;
                            buffer_ready <= 0;
                            buffer <= '0;
                            enable <= 0;
                        end
                    end
                end
            end
        end
      end
    endgenerate
    assign m_axis_tdata = buffer;
    assign m_axis_tvalid = buffer_ready;
 endmodule
--- a/rtl/sampler/tests/Makefile
+++ b/rtl/sampler/tests/Makefile
@ -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;
--- a/rtl/sampler/tests/sampler_main_tb.sv
+++ b/rtl/sampler/tests/sampler_main_tb.sv
@ -0,0 +1,132 @@
 `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
--- a/rtl/sampler/tests/sampler_tests.sv
+++ b/rtl/sampler/tests/sampler_tests.sv
--- a/scripts/build.sh
+++ b/scripts/build.sh
@ -1 +0,0 @@
 # mock
--- a/scripts/vivado.mk
+++ b/scripts/vivado.mk
@ -109,7 +109,27 @@ create_project.tcl: Makefile $(XCI_FILES) $(IP_TCL_FILES)
 	echo "add_files -fileset constrs_1 $(XDC_FILES)" >> $@
 	for x in $(XCI_FILES); do echo "import_ip $$x" >> $@; done
 	for x in $(IP_TCL_FILES); do echo "source $$x" >> $@; done
 	echo 'set ips [get_ips -quiet *]' >> $@
 	echo 'if {[llength $$ips] > 0} {' >> $@
 	echo '  puts "INFO: Checking IP status..."' >> $@
 	echo '  report_ip_status -file ip_status_before_upgrade.rpt' >> $@
 	echo '  set locked_ips [get_ips -quiet -filter {IS_LOCKED == 1}]' >> $@
 	echo '  if {[llength $$locked_ips] > 0} {' >> $@
 	echo '    puts "INFO: Upgrading locked IP cores: $$locked_ips"' >> $@
 	echo '    upgrade_ip $$locked_ips' >> $@
 	echo '  }' >> $@
 	echo '  set ip_files [get_files -quiet *.xci]' >> $@
 	echo '  if {[llength $$ip_files] > 0} {' >> $@
 	echo '    puts "INFO: Generating IP output products..."' >> $@
 	echo '    generate_target all $$ip_files' >> $@
 	echo '    export_ip_user_files -of_objects $$ip_files -no_script -sync -force -quiet' >> $@
 	echo '  }' >> $@
 	echo '  report_ip_status -file ip_status_after_upgrade.rpt' >> $@
 	echo '}' >> $@
 	for x in $(CONFIG_TCL_FILES); do echo "source $$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]" >> $@; \
@ -180,6 +200,8 @@ sim: $(PROJECT).xpr gen_ip
 	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 10000 us" >> run_sim.tcl
 	echo "quit" >> run_sim.tcl
 	vivado -mode batch -source run_sim.tcl
 simclean:
--- a/software/README.md
+++ b/software/README.md
@ -0,0 +1,20 @@
 # Software
 Просто скрипт на питоне, для отправки команд через ethernet и для приема и простой визуализации данных.
 ## Использование
 Справка:
 ```python3 --help```
 Положительный импульс:
 ```python3 console.py --pulse_width 3500 --pulse_period 20000 --pulse_height 15000 --pulse_num 550 --dac-bits 14```
 Отрицательный импульс:
 ```python3 console.py --pulse_width 15000 --pulse_period 20000 --pulse_height 1500 --pulse_num 550 --dac-bits 14```
 ## Ограничения
 Максимальный pulse_period считается как аппаратный N_MAX * WINDOW_SIZE * adc_dac_ratio, в базовой конфигурации это 512000. Максимальный pulse_num зависит от подаваемых значений и от битности аккумулятора (по умолчанию - 32), с учетом усреднений по WINDOW_SIZE это получается что-то около 2^14 накоплений.
--- a/software/console.py
+++ b/software/console.py
@ -1,5 +1,9 @@
 import argparse
 import socket
 import math
 import matplotlib.pyplot as plt
 adc_dac_ratio = 0.52
 def run_debug(args, sock):
@ -22,12 +26,16 @@ def run_debug(args, sock):
 def format_ctrl_data(pulse_width: int, pulse_period: int,
-                     pulse_height: int, pulse_num: int, dac_bits: int = 16) -> bytes:
+                     pulse_height: int, pulse_num: int, args, dac_bits: int = 16) -> bytes:
    """Format data packet for set_data command."""
    output = bytearray()
    output += 0b10001000.to_bytes(1, 'little')
    pulse_period_adc = (int(pulse_period * adc_dac_ratio) //
                        args.window_size) * args.window_size
    print(pulse_period_adc)
    # no negative please
    assert pulse_width > 0, "pulse_width should be positive"
    assert pulse_period > 0, "pulse_period should be positive"
@ -44,13 +52,90 @@ def format_ctrl_data(pulse_width: int, pulse_period: int,
    output += pulse_period.to_bytes(4, 'little')
    output += pulse_num.to_bytes(2, 'little')
    output += pulse_height.to_bytes(2, 'little')
    output += pulse_period_adc.to_bytes(4, 'little')
-    assert len(output) == 13, "Config data should be 96 bits + 8 bit header"
+    assert len(output) == 17, "Config data should be 128 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 recv_data(args, sock) -> list:
    # calculate count & size
    packet_count = math.ceil(
        ((adc_dac_ratio * args.pulse_period) / args.window_size * args.data_width) / args.packet_size)
    print(packet_count)
    recv_buf = []
    try:
        for pkt_cnt in range(packet_count):
            try:
                data, address = sock.recvfrom(65536)
                if len(data) % args.data_width != 0:
                    print("invalid packet size!")
                for i in range(0, len(data), args.data_width):
                    sample = int.from_bytes(
                        data[i:i+args.data_width], "little")
                    recv_buf.append(sample)
            except socket.timeout:
                print("socket timeout")
            except KeyboardInterrupt:
                print(f"recv: {pkt_cnt}")
                break
    except Exception as e:
        print(f"err: {e}")
    expected_length = math.ceil(
        adc_dac_ratio * args.pulse_period / args.window_size)
    if len(recv_buf) < expected_length:
        print("data underflow")
        return []
    recv_buf = recv_buf[:expected_length-1]
    print(f"collected {len(recv_buf)} samples")
    # print(recv_buf)
    return recv_buf
 def run(args, sock):
-    pass
+    dest = (args.ip, args.send_port)
    if args.pulse_period % args.window_size != 0:
        print("Invalid pulse period (should be divisable by WINDOW_SIZE)")
        return
    # 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, args,
                                 dac_bits=args.dac_bits), dest)
    sock.sendto(0xf000.to_bytes(2), dest)
    print("Sent start!")
    data = recv_data(args, sock)
    print(min(data), max(data))
    plt.plot(data)
    plt.show()
 def main():
@ -73,6 +158,15 @@ def main():
    parser.add_argument("--dac-bits", type=int, default=12,
                        help="Битность ЦАП (влияет на максимальный pulse_height)")
    parser.add_argument("--data-width", type=int,
                        default=4, help="Байтность получаемых данных, по умолчанию 4 (AKA int32)")
    parser.add_argument("--window-size", type=int,
                        default=65, help="Размер окна для первого усреднения.")
    parser.add_argument("--packet-size", type=int,
                        default=1024, help="Размер отправляемых пакетов.")
    # передача параметров через аргументы
    for arg in ("pulse_width", "pulse_period", "pulse_num", "pulse_height"):
        parser.add_argument(f"--{arg}", type=int,
@ -81,10 +175,13 @@ def main():
    args = parser.parse_args()
    sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
    sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
    sock.bind(("0.0.0.0", args.recv_port))
    if args.debug:
        run_debug(args, sock)
    else:
        verify_args(args)
        run(args, sock)
    sock.close()
--- a/software/gui.py
+++ b/software/gui.py
@ -0,0 +1,736 @@
 # shitpost
 import sys
 import math
 import socket
 import platform
 from PyQt6 import uic
 from dataclasses import dataclass
 from PyQt6.QtCore import QProcess, QTimer
 from PyQt6.QtCore import QObject, QThread, pyqtSignal
 from PyQt6.QtCore import Qt
 import pyqtgraph as pg
 from PyQt6.QtWidgets import QApplication, QMainWindow
@dataclass
 class ReflectometerConfig:
    ip: str
    send_port: int
    recv_port: int
    dac_bits: int
    data_width: int
    window_size: int
    packet_size: int
    pulse_width: int
    pulse_period: int
    pulse_height: int
    pulse_num: int
    adc_dac_ratio: float = 0.52
    socket_timeout_sec: float = 2.0
 class ReflectometerWorker(QObject):
    data_ready = pyqtSignal(list)
    status = pyqtSignal(str)
    error = pyqtSignal(str)
    finished = pyqtSignal()
    def __init__(self, config: ReflectometerConfig):
        super().__init__()
        self.config = config
        self._stop_requested = False
        self._sock = None
    def stop(self):
        self._stop_requested = True
        if self._sock is not None:
            try:
                self._sock.close()
            except OSError:
                pass
    def run(self):
        try:
            self._validate_config()
            self.status.emit("Открытие UDP-сокета...")
            self._sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
            self._sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
            self._sock.settimeout(self.config.socket_timeout_sec)
            self._sock.bind(("0.0.0.0", self.config.recv_port))
            dest = (self.config.ip, self.config.send_port)
            self.status.emit("Отправка soft reset...")
            self._sock.sendto((0x0F00).to_bytes(2, "big"), dest)
            self.status.emit("Отправка параметров...")
            ctrl_data = self._format_ctrl_data()
            self._sock.sendto(ctrl_data, dest)
            self.status.emit("Отправка start...")
            self._sock.sendto((0xF000).to_bytes(2, "big"), dest)
            self.status.emit("Приём данных...")
            data = self._recv_data()
            if self._stop_requested:
                self.status.emit("Операция остановлена")
                return
            self.data_ready.emit(data)
            self.status.emit(f"Получено samples: {len(data)}")
        except Exception as e:
            if not self._stop_requested:
                self.error.emit(str(e))
        finally:
            if self._sock is not None:
                try:
                    self._sock.close()
                except OSError:
                    pass
            self.finished.emit()
    def _format_ctrl_data(self) -> bytes:
        output = bytearray()
        output += 0b10001000.to_bytes(1, "little")
        pulse_period_adc = (
            int(self.config.pulse_period * self.config.adc_dac_ratio)
            // self.config.window_size
        ) * self.config.window_size
        output += self.config.pulse_width.to_bytes(4, "little")
        output += self.config.pulse_period.to_bytes(4, "little")
        output += self.config.pulse_num.to_bytes(2, "little")
        output += self.config.pulse_height.to_bytes(2, "little")
        output += pulse_period_adc.to_bytes(4, "little")
        if len(output) != 17:
            raise ValueError("Config data should be 128 bits + 8 bit header")
        return bytes(output)
    def _recv_data(self) -> list[int]:
        packet_count = math.ceil(
            (
                self.config.adc_dac_ratio
                * self.config.pulse_period
                / self.config.window_size
                * self.config.data_width
            )
            / self.config.packet_size
        )
        expected_length = math.ceil(
            self.config.adc_dac_ratio
            * self.config.pulse_period
            / self.config.window_size
        )
        recv_buf = []
        for pkt_cnt in range(packet_count):
            if self._stop_requested:
                break
            try:
                packet, _ = self._sock.recvfrom(65536)
            except socket.timeout:
                raise TimeoutError(f"Таймаут приёма UDP-пакета #{pkt_cnt + 1}")
            if len(packet) % self.config.data_width != 0:
                raise ValueError(
                    f"Некорректный размер UDP-пакета: {len(packet)} байт"
                )
            for i in range(0, len(packet), self.config.data_width):
                sample = int.from_bytes(
                    packet[i:i + self.config.data_width],
                    "little",
                )
                recv_buf.append(sample)
        if len(recv_buf) < expected_length:
            raise ValueError(
                f"Data underflow: получено {len(recv_buf)}, ожидалось {expected_length}"
            )
        return recv_buf[:expected_length - 1]
    def _validate_config(self):
        if self.config.pulse_period <= 0:
            raise ValueError("pulse_period должен быть больше 0")
        if self.config.pulse_num <= 0:
            raise ValueError("pulse_num должен быть больше 0")
        if self.config.window_size <= 0:
            raise ValueError("window_size должен быть больше 0")
        if self.config.packet_size <= 0:
            raise ValueError("packet_size должен быть больше 0")
        if self.config.data_width <= 0:
            raise ValueError("data_width должен быть больше 0")
        if self.config.pulse_period % self.config.window_size != 0:
            raise ValueError("pulse_period должен быть кратен window_size")
        if self.config.pulse_width >= 2**32 - 1:
            raise ValueError("pulse_width слишком большой")
        if self.config.pulse_period >= 2**32 - 1:
            raise ValueError("pulse_period слишком большой")
        if self.config.pulse_num >= 2**16 - 1:
            raise ValueError("pulse_num слишком большой")
        if self.config.pulse_height > 2**self.config.dac_bits - 1:
            raise ValueError("pulse_height слишком большой")
 class MainWindow(QMainWindow):
    def __init__(self):
        super().__init__()
        uic.loadUi("reflectometer.ui", self)
        self.ping_process = None
        self.ping_timeout_timer = QTimer(self)
        self.ping_timeout_timer.setSingleShot(True)
        self.ping_timeout_timer.timeout.connect(self.on_ping_timeout)
        self.button_ping.clicked.connect(self.check_ping)
        # settings
        self.pulse_period = 0
        self.pulse_height = 0
        self.pulse_width = 0
        self.pulse_num = 0
        self.dac_dw = 14
        self.adc_dw = 12
        self.nmax = 4096
        self.packet_size = 1024
        self.window_size = 65
        self.adc_dac_ration = 0.52
        self.accum_width = 32
        # setup
        self.setup_pulse_controls()
        self.setup_global_settings()
        self.update_pulse_limits()
        self.data = []
        self.adc_dac_ratio = 0.52
        self.measurement_thread = None
        self.measurement_worker = None
        self.setup_graph()
        self.setup_network_settings()
        self.button_start.clicked.connect(self.run_measurement)
        self.button_graph_autoscale.clicked.connect(self.reset_graph_autoscale)
    # ping utils
    def check_ping(self):
        ip = self.line_ip.text().strip()
        if not ip:
            self.label_ping_status.setText("set ip!!")
            return
        if "_" in self.line_ip.displayText():
            self.label_ping_status.setText("IP invalid")
            return
        if self.ping_process is not None:
            if self.ping_process.state() != QProcess.ProcessState.NotRunning:
                self.label_ping_status.setText("Ping inflight")
                return
        self.label_ping_status.setText("ping...")
        self.button_ping.setEnabled(False)
        self.ping_process = QProcess(self)
        self.ping_process.finished.connect(self.on_ping_finished)
        self.ping_process.errorOccurred.connect(self.on_ping_error)
        system_name = platform.system().lower()
        if system_name == "windows":
            program = "ping"
            arguments = ["-n", "1", "-w", "2000", ip]
        else:
            program = "ping"
            arguments = ["-c", "1", "-W", "2", ip]
        self.ping_process.start(program, arguments)
        # fallback
        self.ping_timeout_timer.start(2000)
    def on_ping_finished(self, exit_code, exit_status):
        self.ping_timeout_timer.stop()
        self.button_ping.setEnabled(True)
        if exit_code == 0:
            self.label_ping_status.setText("алё✅")
        else:
            self.label_ping_status.setText("не алё❌")
    def on_ping_error(self):
        self.ping_timeout_timer.stop()
        self.button_ping.setEnabled(True)
        self.label_ping_status.setText("ping unavail")
    def on_ping_timeout(self):
        if self.ping_process is not None:
            if self.ping_process.state() != QProcess.ProcessState.NotRunning:
                self.ping_process.kill()
        self.button_ping.setEnabled(True)
    # pulse controls
    def setup_pulse_controls(self):
        self._bind_slider_and_spinbox(
            name="pulse_period",
            slider=self.slider_pulse_period,
            box=self.box_pulse_period,
            normalize_value=self.normalize_pulse_period,
        )
        self._bind_slider_and_spinbox(
            name="pulse_height",
            slider=self.slider_pulse_height,
            box=self.box_pulse_height,
        )
        self._bind_slider_and_spinbox(
            name="pulse_width",
            slider=self.slider_pulse_width,
            box=self.box_pulse_width,
        )
        self._bind_slider_and_spinbox(
            name="pulse_num",
            slider=self.slider_pulse_num,
            box=self.box_pulse_num,
        )
    def _bind_slider_and_spinbox(self, name, slider, box, normalize_value=None):
        """
        Связывает QSlider и QSpinBox по значению.
        Значение автоматически записывается в self.<name>.
        """
        minimum = min(slider.minimum(), box.minimum())
        maximum = max(slider.maximum(), box.maximum())
        slider.setRange(minimum, maximum)
        box.setRange(minimum, maximum)
        def normalize(value):
            if normalize_value is None:
                return value
            return normalize_value(value)
        value = normalize(box.value())
        slider.setValue(value)
        box.setValue(value)
        setattr(self, name, value)
        def update_value(new_value):
            new_value = normalize(new_value)
            if slider.value() != new_value:
                slider.setValue(new_value)
            if box.value() != new_value:
                box.setValue(new_value)
            setattr(self, name, new_value)
        slider.valueChanged.connect(update_value)
        box.valueChanged.connect(update_value)
    def normalize_pulse_period(self, value):
        step = max(1, getattr(self, "window_size",
                   self.box_window_size.value()))
        snapped_value = round(value / step) * step
        minimum = self.box_pulse_period.minimum()
        maximum = self.box_pulse_period.maximum()
        return max(minimum, min(snapped_value, maximum))
    def _set_max_for_pair(self, slider, box, maximum):
        slider.setMaximum(maximum)
        box.setMaximum(maximum)
        value = min(box.value(), maximum)
        box.setValue(value)
        slider.setValue(value)
    def set_max_pulse_period(self, maximum):
        self._set_max_for_pair(
            slider=self.slider_pulse_period,
            box=self.box_pulse_period,
            maximum=maximum,
        )
        self.pulse_period = self.box_pulse_period.value()
    def set_max_pulse_height(self, maximum):
        self._set_max_for_pair(
            slider=self.slider_pulse_height,
            box=self.box_pulse_height,
            maximum=maximum,
        )
        self.pulse_height = self.box_pulse_height.value()
    def set_max_pulse_width(self, maximum):
        self._set_max_for_pair(
            slider=self.slider_pulse_width,
            box=self.box_pulse_width,
            maximum=maximum,
        )
        self.pulse_width = self.box_pulse_width.value()
    def set_max_pulse_num(self, maximum):
        self._set_max_for_pair(
            slider=self.slider_pulse_num,
            box=self.box_pulse_num,
            maximum=maximum,
        )
        self.pulse_num = self.box_pulse_num.value()
    # settings
    def setup_global_settings(self):
        self._bind_spinbox_setting(
            name="dac_dw",
            box=self.box_dac_dw,
        )
        self._bind_spinbox_setting(
            name="adc_dw",
            box=self.box_adc_dw,
        )
        self._bind_spinbox_setting(
            name="nmax",
            box=self.box_nmax,
        )
        self._bind_spinbox_setting(
            name="window_size",
            box=self.box_window_size,
            after_change=self.on_window_size_changed,
        )
        self._bind_spinbox_setting(
            name="packet_size",
            box=self.box_packet_size,
        )
        self._bind_spinbox_setting(
            name="adc_dac_ratio",
            box=self.box_adc_dac_ratio,
        )
        self._bind_spinbox_setting(
            name="accum_width",
            box=self.box_accum_width,
        )
        self._bind_spinbox_setting(
            name="recv_port",
            box=self.box_recv_port,
        )
        self._bind_spinbox_setting(
            name="send_port",
            box=self.box_send_port,
        )
        # применяем шаг для pulse_period сразу при старте
        self.update_pulse_period_step()
    def _bind_spinbox_setting(self, name, box, after_change=None):
        """
        Связывает QSpinBox с полем self.<name>.
        Например:
        box_dac_dw -> self.dac_dw
        box_window_size -> self.window_size
        """
        value = box.value()
        setattr(self, name, value)
        def on_value_changed(new_value):
            setattr(self, name, new_value)
            self.update_pulse_limits()
            if after_change is not None:
                after_change(new_value)
        box.valueChanged.connect(on_value_changed)
    def update_pulse_limits(self):
        # re-calc limits
        # nmax -> pulse_period limit
        self.set_max_pulse_period(self.nmax * self.window_size)
        self.set_max_pulse_width(self.nmax * self.window_size)
        # accum_width + adc_width -> max pulse num
        self.set_max_pulse_num(
            2 ** (self.accum_width - self.adc_dw - math.ceil(math.log2(self.window_size))) - 1)
        # dac_width -> max pulse height
        self.set_max_pulse_height(2 ** self.dac_dw - 1)
        self.slider_pulse_period.setMinimum(self.window_size)
        self.box_pulse_period.setMinimum(self.window_size)
    def on_window_size_changed(self, new_value):
        self.update_pulse_period_step()
    def update_pulse_period_step(self):
        # set window_size step
        step = max(1, self.window_size)
        self.box_pulse_period.setSingleStep(step)
        self.slider_pulse_period.setSingleStep(step)
        self.slider_pulse_period.setPageStep(step)
        self.snap_pulse_period_to_step(step)
    def snap_pulse_period_to_step(self, step):
        """
        Подгоняет текущее значение pulse_period к ближайшему кратному window_size.
        Это нужно потому, что QSlider при перетаскивании мышкой
        всё равно может дать любое промежуточное значение.
        """
        current_value = self.box_pulse_period.value()
        snapped_value = round(current_value / step) * step
        minimum = self.box_pulse_period.minimum()
        maximum = self.box_pulse_period.maximum()
        snapped_value = max(minimum, min(snapped_value, maximum))
        self.box_pulse_period.setValue(snapped_value)
        self.slider_pulse_period.setValue(snapped_value)
        self.pulse_period = snapped_value
    # graph
    def setup_graph(self):
        self.graph_widget = pg.PlotWidget()
        self.graph_widget.setLabel("left", "ADC value")
        self.graph_widget.setLabel("bottom", "Sample")
        self.graph_widget.showGrid(x=True, y=True)
        self.graph_curve = self.graph_widget.plot(
            [],
            name="Data",
        )
        self.reference_curve = self.graph_widget.plot(
            [],
            name="Reference",
        )
        self.graph_layout.addWidget(self.graph_widget)
        self.graph_curve = self.graph_widget.plot(
            [], pen=pg.mkPen(width=2, color="b"))
        self.reference_curve = self.graph_widget.plot(
            [], pen=pg.mkPen(style=Qt.PenStyle.DashLine, color="g"))
        self.checkbox_draw_reference.stateChanged.connect(
            self.update_reference_graph)
    def setup_network_settings(self):
        self._bind_spinbox_setting(
            name="recv_port",
            box=self.box_recv_port,
        )
        self._bind_spinbox_setting(
            name="send_port",
            box=self.box_send_port,
        )
    def run_measurement(self):
        if self.measurement_thread is not None:
            if self.measurement_thread.isRunning():
                self.set_measurement_status("Измерение выполняется")
                return
        config = self.build_reflectometer_config()
        self.data = []
        self.graph_curve.setData([])
        self.measurement_thread = QThread(self)
        self.measurement_worker = ReflectometerWorker(config)
        self.measurement_worker.moveToThread(self.measurement_thread)
        self.measurement_thread.started.connect(self.measurement_worker.run)
        self.measurement_worker.status.connect(self.set_measurement_status)
        self.measurement_worker.error.connect(self.on_measurement_error)
        self.measurement_worker.data_ready.connect(self.on_data_received)
        self.measurement_worker.finished.connect(self.measurement_thread.quit)
        self.measurement_worker.finished.connect(
            self.measurement_worker.deleteLater)
        self.measurement_thread.finished.connect(
            self.measurement_thread.deleteLater)
        self.measurement_thread.finished.connect(self.on_measurement_finished)
        self.measurement_thread.start()
    def build_reflectometer_config(self) -> ReflectometerConfig:
        ip = self.line_ip.text().strip()
        if not ip:
            raise ValueError("IP адрес не задан")
        data_width = self.accum_width // 8
        return ReflectometerConfig(
            ip=ip,
            send_port=self.send_port,
            recv_port=self.recv_port,
            dac_bits=self.dac_dw,
            data_width=data_width,
            window_size=self.window_size,
            packet_size=self.packet_size,
            pulse_width=self.pulse_width,
            pulse_period=self.pulse_period,
            pulse_height=self.pulse_height,
            pulse_num=self.pulse_num,
            adc_dac_ratio=self.adc_dac_ratio,
        )
    def on_data_received(self, data: list[int]):
        self.data = data
        # normalize
        for i in range(len(data)):
            self.data[i] /= (self.window_size * self.pulse_num)
            self.data[i] -= 2 ** (self.adc_dw - 1) + 1
        self.draw_main_graph()
        self.update_reference_graph()
        if data:
            self.set_measurement_status(
                f"Готово. smp: {len(data)}, min: {min(data)}, max: {max(data)}"
            )
        else:
            self.set_measurement_status("Данные пустые")
    def on_measurement_error(self, message: str):
        self.set_measurement_status(f"Ошибка: {message}")
    def on_measurement_finished(self):
        self.measurement_worker = None
        self.measurement_thread = None
    def stop_measurement(self):
        if self.measurement_worker is not None:
            self.measurement_worker.stop()
    def set_measurement_status(self, text: str):
        self.label_status.setText(text)
    def draw_main_graph(self):
        if not self.data:
            self.graph_curve.setData([])
            return
        x = list(range(len(self.data)))
        self.graph_curve.setData(x, self.data)
    def update_reference_graph(self):
        """
        Рисует или очищает эталонный график.
        Вызывается после получения данных и при переключении checkbox_draw_reference.
        """
        if not self.checkbox_draw_reference.isChecked():
            self.reference_curve.setData([])
            return
        if not self.data:
            self.reference_curve.setData([])
            return
        reference_data = self.build_reference_data(len(self.data))
        if not reference_data:
            self.reference_curve.setData([])
            return
        x = list(range(len(reference_data)))
        self.reference_curve.setData(x, reference_data)
    def build_reference_data(self, length: int) -> list[int]:
        reference = [0] * length
        actual_pulse_width = round(
            (self.pulse_width * self.adc_dac_ratio) / self.window_size)
        reference[0:actual_pulse_width] = [
            (self.pulse_height / 2 ** (self.dac_dw - self.adc_dw)) - 2 ** (self.adc_dw - 1), ] * (actual_pulse_width - 1)
        return reference
    def reset_graph_autoscale(self):
        self.graph_widget.enableAutoRange(axis="xy", enable=True)
        self.graph_widget.autoRange()
 def main():
    app = QApplication(sys.argv)
    window = MainWindow()
    window.show()
    sys.exit(app.exec())
 if __name__ == "__main__":
    main()
--- a/software/reflectometer.ui
+++ b/software/reflectometer.ui
@ -0,0 +1,505 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <ui version="4.0">
 <class>MainWindow</class>
 <widget class="QMainWindow" name="MainWindow">
  <property name="geometry">
   <rect>
    <x>0</x>
    <y>0</y>
    <width>1023</width>
    <height>708</height>
   </rect>
  </property>
  <property name="windowTitle">
   <string>Reflectometer PREMIUM</string>
  </property>
  <widget class="QWidget" name="centralwidget">
   <layout class="QHBoxLayout" name="horizontalLayout" stretch="4,2">
    <item>
     <layout class="QVBoxLayout" name="graph_layout"/>
    </item>
    <item>
     <layout class="QVBoxLayout" name="settings_layout">
      <item>
       <widget class="QTabWidget" name="tabWidget">
        <property name="currentIndex">
         <number>1</number>
        </property>
        <widget class="QWidget" name="tab">
         <attribute name="title">
          <string>Настройки</string>
         </attribute>
         <layout class="QVBoxLayout" name="verticalLayout_2">
          <item>
           <widget class="QScrollArea" name="scrollArea">
            <property name="widgetResizable">
             <bool>true</bool>
            </property>
            <widget class="QWidget" name="scrollAreaWidgetContents">
             <property name="geometry">
              <rect>
               <x>0</x>
               <y>0</y>
               <width>294</width>
               <height>621</height>
              </rect>
             </property>
             <layout class="QVBoxLayout" name="verticalLayout">
              <item>
               <widget class="QLabel" name="label_2">
                <property name="font">
                 <font>
                  <pointsize>12</pointsize>
                 </font>
                </property>
                <property name="text">
                 <string>Аппаратные параметры</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_dac_dw">
                <property name="suffix">
                 <string> bits</string>
                </property>
                <property name="prefix">
                 <string>DAC data width: </string>
                </property>
                <property name="minimum">
                 <number>8</number>
                </property>
                <property name="maximum">
                 <number>32</number>
                </property>
                <property name="value">
                 <number>14</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_adc_dw">
                <property name="suffix">
                 <string> bits</string>
                </property>
                <property name="prefix">
                 <string>ADC data width: </string>
                </property>
                <property name="minimum">
                 <number>8</number>
                </property>
                <property name="maximum">
                 <number>32</number>
                </property>
                <property name="value">
                 <number>12</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_accum_width">
                <property name="suffix">
                 <string> bits</string>
                </property>
                <property name="prefix">
                 <string>Accum width: </string>
                </property>
                <property name="minimum">
                 <number>16</number>
                </property>
                <property name="maximum">
                 <number>64</number>
                </property>
                <property name="singleStep">
                 <number>8</number>
                </property>
                <property name="value">
                 <number>32</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QDoubleSpinBox" name="box_adc_dac_ratio">
                <property name="prefix">
                 <string>ADC:DAC clk ratio: </string>
                </property>
                <property name="minimum">
                 <double>0.200000000000000</double>
                </property>
                <property name="maximum">
                 <double>3.000000000000000</double>
                </property>
                <property name="singleStep">
                 <double>0.010000000000000</double>
                </property>
                <property name="value">
                 <double>0.520000000000000</double>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_nmax">
                <property name="prefix">
                 <string>N Max: </string>
                </property>
                <property name="minimum">
                 <number>512</number>
                </property>
                <property name="maximum">
                 <number>65536</number>
                </property>
                <property name="value">
                 <number>4096</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_window_size">
                <property name="prefix">
                 <string>Window size: </string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>1024</number>
                </property>
                <property name="value">
                 <number>65</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_packet_size">
                <property name="suffix">
                 <string> bytes</string>
                </property>
                <property name="prefix">
                 <string>Packet size: </string>
                </property>
                <property name="minimum">
                 <number>1</number>
                </property>
                <property name="maximum">
                 <number>1572</number>
                </property>
                <property name="value">
                 <number>1024</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="Line" name="line_2">
                <property name="orientation">
                 <enum>Qt::Orientation::Horizontal</enum>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label">
                <property name="font">
                 <font>
                  <pointsize>12</pointsize>
                 </font>
                </property>
                <property name="text">
                 <string>Подключение</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label_3">
                <property name="text">
                 <string>IP устройства:</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLineEdit" name="line_ip">
                <property name="inputMask">
                 <string>999.999.999.999</string>
                </property>
                <property name="text">
                 <string>192.168.0.2</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label_4">
                <property name="text">
                 <string>Порт отправки:</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_send_port">
                <property name="minimum">
                 <number>80</number>
                </property>
                <property name="maximum">
                 <number>65536</number>
                </property>
                <property name="value">
                 <number>8080</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label_5">
                <property name="text">
                 <string>Порт приёма:</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QSpinBox" name="box_recv_port">
                <property name="minimum">
                 <number>80</number>
                </property>
                <property name="maximum">
                 <number>65536</number>
                </property>
                <property name="value">
                 <number>8080</number>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label_6">
                <property name="font">
                 <font>
                  <pointsize>12</pointsize>
                 </font>
                </property>
                <property name="text">
                 <string>Тест</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QPushButton" name="button_ping">
                <property name="text">
                 <string>алё</string>
                </property>
               </widget>
              </item>
              <item>
               <widget class="QLabel" name="label_ping_status">
                <property name="text">
                 <string>...</string>
                </property>
                <property name="alignment">
                 <set>Qt::AlignmentFlag::AlignCenter</set>
                </property>
               </widget>
              </item>
              <item>
               <spacer name="verticalSpacer">
                <property name="orientation">
                 <enum>Qt::Orientation::Vertical</enum>
                </property>
                <property name="sizeHint" stdset="0">
                 <size>
                  <width>20</width>
                  <height>40</height>
                 </size>
                </property>
               </spacer>
              </item>
             </layout>
            </widget>
           </widget>
          </item>
         </layout>
        </widget>
        <widget class="QWidget" name="tab_2">
         <attribute name="title">
          <string>Управление</string>
         </attribute>
         <layout class="QVBoxLayout" name="verticalLayout_3">
          <item>
           <widget class="QLabel" name="label_7">
            <property name="font">
             <font>
              <pointsize>12</pointsize>
             </font>
            </property>
            <property name="text">
             <string>Импульс</string>
            </property>
           </widget>
          </item>
          <item>
           <layout class="QHBoxLayout" name="horizontalLayout_2" stretch="1,1,2">
            <item>
             <widget class="QLabel" name="label_8">
              <property name="text">
               <string>Период</string>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSpinBox" name="box_pulse_period">
              <property name="minimum">
               <number>1</number>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSlider" name="slider_pulse_period">
              <property name="orientation">
               <enum>Qt::Orientation::Horizontal</enum>
              </property>
             </widget>
            </item>
           </layout>
          </item>
          <item>
           <layout class="QHBoxLayout" name="horizontalLayout_3" stretch="1,1,2">
            <item>
             <widget class="QLabel" name="label_9">
              <property name="text">
               <string>Ширина</string>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSpinBox" name="box_pulse_width"/>
            </item>
            <item>
             <widget class="QSlider" name="slider_pulse_width">
              <property name="orientation">
               <enum>Qt::Orientation::Horizontal</enum>
              </property>
             </widget>
            </item>
           </layout>
          </item>
          <item>
           <layout class="QHBoxLayout" name="horizontalLayout_4" stretch="1,1,2">
            <item>
             <widget class="QLabel" name="label_10">
              <property name="text">
               <string>Высота</string>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSpinBox" name="box_pulse_height"/>
            </item>
            <item>
             <widget class="QSlider" name="slider_pulse_height">
              <property name="orientation">
               <enum>Qt::Orientation::Horizontal</enum>
              </property>
             </widget>
            </item>
           </layout>
          </item>
          <item>
           <layout class="QHBoxLayout" name="horizontalLayout_5" stretch="1,1,2">
            <item>
             <widget class="QLabel" name="label_11">
              <property name="text">
               <string>Количество</string>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSpinBox" name="box_pulse_num">
              <property name="minimum">
               <number>1</number>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QSlider" name="slider_pulse_num">
              <property name="minimum">
               <number>1</number>
              </property>
              <property name="orientation">
               <enum>Qt::Orientation::Horizontal</enum>
              </property>
             </widget>
            </item>
           </layout>
          </item>
          <item>
           <widget class="QPushButton" name="button_start">
            <property name="text">
             <string>start!</string>
            </property>
           </widget>
          </item>
          <item>
           <layout class="QHBoxLayout" name="horizontalLayout_6" stretch="1,3">
            <item>
             <widget class="QLabel" name="label_13">
              <property name="font">
               <font>
                <bold>true</bold>
               </font>
              </property>
              <property name="text">
               <string>Статус:</string>
              </property>
             </widget>
            </item>
            <item>
             <widget class="QLabel" name="label_status">
              <property name="text">
               <string>-</string>
              </property>
             </widget>
            </item>
           </layout>
          </item>
          <item>
           <widget class="QCheckBox" name="checkbox_draw_reference">
            <property name="text">
             <string>Отрисовка эталона</string>
            </property>
           </widget>
          </item>
          <item>
           <spacer name="verticalSpacer_2">
            <property name="orientation">
             <enum>Qt::Orientation::Vertical</enum>
            </property>
            <property name="sizeHint" stdset="0">
             <size>
              <width>20</width>
              <height>40</height>
             </size>
            </property>
           </spacer>
          </item>
          <item>
           <widget class="QPushButton" name="button_graph_autoscale">
            <property name="text">
             <string>Сброс масштаба</string>
            </property>
           </widget>
          </item>
         </layout>
        </widget>
       </widget>
      </item>
     </layout>
    </item>
   </layout>
  </widget>
  <widget class="QMenuBar" name="menubar">
   <property name="geometry">
    <rect>
     <x>0</x>
     <y>0</y>
     <width>1023</width>
     <height>30</height>
    </rect>
   </property>
  </widget>
  <widget class="QStatusBar" name="statusbar"/>
 </widget>
 <resources/>
 <connections/>
 </ui>
Author	SHA1	Message	Date
Phil	4938b80af6	sw: add reset scale button	2026-05-26 18:15:56 +03:00
babintsev.lv	c7216e4e8e	fix normalization	2026-05-26 18:05:24 +03:00
Phil	4ecb3f5ea5	sw: fix reference and some options	2026-05-26 17:27:39 +03:00
Phil	9b5e39f3df	sw: add normalization	2026-05-26 16:46:51 +03:00
Phil	99d4eb976f	sw: fix gui console data recv	2026-05-26 16:36:03 +03:00
Phil	d925a4ffaa	sw: update reference graph options	2026-05-26 16:16:15 +03:00
Phil	07ffb31651	sw: gui version	2026-05-26 16:11:29 +03:00
Phil	4f82a27cb7	docs: update READMEs	2026-05-15 16:27:53 +03:00
Phil	fc36390cfe	chore: clean trash	2026-05-15 16:15:00 +03:00
Phil	ba9dee9275	Merge branch 'dev/design' of https://git.radiophotonics.ru/baulin.fa/reflectometer_fpga_project into dev/design	2026-05-15 15:09:16 +03:00
Phil	5b9469560a	infra: update Makefile for synchronizer project	2026-05-15 15:08:22 +03:00
otroubi	966704a4de	chore: 2 starts incident	2026-05-15 14:53:00 +03:00
Phil	d8d89b3566	chore: remove old debug projects	2026-05-15 14:10:42 +03:00
Phil	1504569fb6	debug: add waveconfigs	2026-05-15 14:09:33 +03:00
otroubi	b2c92070a2	chore generator little fix 2	2026-05-15 13:49:00 +03:00
otroubi	51d715a728	chore: generator little fix	2026-05-15 13:47:08 +03:00
otroubi	9efbd6586f	chore: generator evolution	2026-05-15 13:36:10 +03:00
Phil	eacffd44b3	docs: update ctrl readme	2026-05-12 13:47:51 +03:00
Phil	5c1866d571	chore: re-organise designs for better hierarchy	2026-05-12 13:25:44 +03:00
Phil	f9f4a10cdf	infra: fix constraints - adc	2026-05-12 13:23:42 +03:00
Phil	e6cb0e0f6e	Merge branch 'dev/ax7102' into dev/design	2026-05-08 19:07:58 +03:00
Phil	dad163b6ac	infra: update scripts to auto-upgrade ip	2026-05-08 19:04:21 +03:00
otroubi	3a2d8eda2b	rtl: reorganised top without eth	2026-05-08 19:03:24 +03:00
Phil	78095ad9a1	chore: update eth_test_minimal to a100	2026-05-08 18:49:27 +03:00
Phil	c77b54aec6	chore: update eth_axis to a100	2026-05-08 18:43:49 +03:00
Phil	429cf3d085	chore: update eth_test_minimal to a100	2026-05-08 18:43:26 +03:00
Phil	7f6a3e03a1	infra: add constraints for ax7102 board	2026-05-08 17:26:24 +03:00
Phil	66a15cd6e0	test: more cases for accum	2026-05-08 16:43:53 +03:00
Phil	f2a8d8a28e	sw: update console with new packet changes	2026-05-08 16:05:53 +03:00
Phil	ecb2ed3b7f	rtl: update controller to support different smp_num for adc/dac sides	2026-05-08 15:59:20 +03:00
Phil	2a928c2407	rtl: add more debug nodes for reflectometer	2026-05-08 15:58:33 +03:00
Phil	bc0a1c8b66	fix: signal names in reflectometer	2026-05-08 15:58:11 +03:00
otroubi	9b72dfb8d9	fix: cnt_smp_num sampler	2026-05-08 14:08:01 +03:00
otroubi	8c4154baf0	rtl: reflectometer add synchronizer logic	2026-05-06 15:38:25 +03:00
otroubi	c279f1158d	chore: clean code sync_top	2026-05-06 15:37:15 +03:00
otroubi	4fc354955c	rtl: debug synchronizer project makefile	2026-05-06 14:41:26 +03:00
otroubi	57570bea00	rtl: debug synchronizer project constraints	2026-05-06 14:41:15 +03:00
otroubi	03d0abbe86	rtl: debug synchronizer project testbench	2026-05-06 14:40:53 +03:00
otroubi	d26bc29507	rtl: debug synchronizer project	2026-05-06 14:40:33 +03:00
otroubi	e9c39ea344	rtl: generator synchronizer update	2026-05-06 14:31:37 +03:00
otroubi	7c3fe36df1	rtl: sampler synchronizer update	2026-05-06 14:30:23 +03:00
otroubi	f719533eb9	chore: generator and sampler brushed	2026-04-30 13:14:26 +03:00
Phil	179347659b	rtl: update reflectometer top design	2026-04-30 13:10:41 +03:00
Phil	9fd311d671	chore: add debug XDC for main project	2026-04-30 13:05:33 +03:00
Phil	a018b3d215	fix: bad checksums in axis_mac	2026-04-30 13:05:06 +03:00
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
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
		`@ -0,0 +1 @@`
							`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]`