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Design Name is always "TE Series Name" + Design name, for example "TE0720 Test Board"


DateVersionChangesAuthor
2021-06-283.1.8
  • added boot process for Microblaze
  • minor typos, formatting
ma
2021-06-013.1.7
  • carrier reference note
jh
2021-05-043.1.6
  • removed zynq_ from zynq_fsbl
ma
2021-04-283.1.5
  • added macro "Scroll ignore" for suppression of horizontal dividing lines during .pdf-export
  • minor typos, formatting
ma
2021-04-273.1.4
  • Version History
    • changed from list to table
  • Design flow
    • removed step 5 from Design flow
    • changed link from TE Board Part Files to Vivado Board Part Flow
    • changed cmd shell from picture to codeblock
    • added hidden template for "Copy PetaLinux build image files", depending from hardware
    • added hidden template for "Power on PCB", depending from hardware
  • Usage update of boot process
  • Requirements - Hardware
    • added "*used as reference" for hardware requirements
  • all
    • placed a horizontal separation line under each chapter heading
    • changed title-alignment for tables from left to center
  • all tables
    • added "<project folder>\board_files" in Vivado design sources
ma

3.1.3
  • Design Flow
    • formatting
  • Launch
    • formatting
ma

3.1.2
  • minor typing corrections
  • replaced SDK by Vitis
  • changed from / to \ for windows paths
  • replaced <design name> by <project folder>
  • added "" for path names
  • added boot.src description
  • added USB for programming
ma

3.1.1
  • swapped order from prebuilt files
  • minor typing corrections
  • removed Win OS path length from Design flow, added as caution in Design flow
ma

3.1
  • Fix problem with pdf export and side scroll bar
  • update 19.2 to 20.2
  • add prebuilt content option


3.0
  • add fix table of content
  • add table size as macro
  • removed page initial creator


Custom_table_size_100


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Important General Note:

  • Export PDF to download, if vivado revision is changed!

  • Designate all graphics and pictures with a number and a description, Use "Scroll Title" macro

    • Use "Scroll Title" macro for pictures and table labels. Figure number must be set manually at the moment (automatically enumeration is planned by scrollPDF)
      • Figure template (note: inner scroll ignore/only only with drawIO object):

        Scroll Title
        anchorFigure_xyz
        titleText


        Scroll Ignore

        Create DrawIO object here: Attention if you copy from other page, use


        Scroll Only

        image link to the generate DrawIO PNG file of this page. This is a workaround until scroll pdf export bug is fixed



      • Table template:

        • Layout macro can be use for landscape of large tables
        • Set column width manually(can be used for small tables to fit over whole page) or leave empty (automatically)

      • Scroll Title
        anchorTable_xyz
        titleText

        Scroll Table Layout
        orientationportrait
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        ExampleComment
        12



  • ...


Scroll pdf ignore

Table of contents

Table of Contents
outlinetrue

Overview

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Notes :

Zynq Design PS with Linux and  two Ethernet PHYs connected over EMIO and PL.

Refer to http://trenz.org/te0728-info for the current online version of this manual and other available documentation.

Key Features

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Notes :

  • Add basic key futures, which can be tested with the design


Excerpt
  • Vitis/Vivado 2020.2
  • PetaLinux
  • SD
  • 2x ETH (Independent MDIO Interface and DP83848 PHY)
  • I2C
  • RTC
  • Special FSBL for QSPI programming

Revision History

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Notes :

  • add every update file on the download
  • add design changes on description


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DateVivadoProject BuiltAuthorsDescription
2021-11-032020.2TE0728-test_board-vivado_2020.2-build_8_20211103093707.zip
TE0728-test_board_noprebuilt-vivado_2020.2-build_8_20211103093732.zip
Mohsen Chamanbaz
  • 2020.2 release
2018-12-122018.2TE0728-test_board-vivado_2018.2-build_03_20181212131950.zip
TE0728-test_board_noprebuilt-vivado_2018.2-build_03_20181212134902.zip
John Hartfiel
  • rework board part files
  • rework petalinux device tree, driver
  • small changes on xdc
2017-10-062017.2TE0728-test_board_noprebuilt-vivado_2017.2-build_03_20171006103655.zip
TE0728-test_board-vivado_2017.2-build_03_20171006103634.zip
John Hartfiel
  • initial release


Release Notes and Know Issues

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Notes :
  • add known Design issues and general notes for the current revision
  • do not delete known issue, add fixed version time stamp if  issue fixed


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titleKnown Issues

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IssuesDescriptionWorkaroundTo be fixed version
Wrong UBoot ETH PHY AddressPHY Address is not set correctly for UBoot---solved with 2018-12-12 update

Linux Message: "macb ... .ethernet eth...: unable to generate target frequency: 25000000 Hz"

This can be ignored, ETH works.------


Requirements

Software

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Notes :

  • list of software which was used to generate the design


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SoftwareVersionNote
Vitis2020.2needed, Vivado is included into Vitis installation
Petalinux2020.2needed



Hardware

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Notes :

  • list of software which was used to generate the design

Basic description of TE Board Part Files is available on TE Board Part Files.

Complete List is available on <design name>/board_files/*_board_files.csv

Design supports following modules:

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Module ModelBoard Part Short NamePCB Revision SupportDDRQSPI FlashOthersNotes
TE0728-03-1Q03_1qREV01, REV02, REV03512MB16MB

TE0728-04-1Q*04_1qREV04512MB16MB

*used as reference


Design supports following carriers:

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Carrier ModelNotes
TEB0728



Additional HW Requirements:

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Additional HardwareNotes
USB Cable for JTAG/UART
TE0790 XMOD Programmer


Content

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Notes :

  • content of the zip file


For general structure and of the reference design, see Project Delivery - AMD devices

Design Sources

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TypeLocationNotes
Vivado

<project folder>\block_design
<project folder>\constraints
<project folder>\ip_lib
<project folder>\board_files

Vivado Project will be generated by TE Scripts
Vitis<project folde>\sw_libAdditional Software Template for Vitis and apps_list.csv with settings automatically for Vitis app generation
PetaLinux<project folder>\os\petalinuxPetaLinux template with current configuration



Additional Sources

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TypeLocationNotes
init.sh<project folder>\misc\sd\Additional Initialization Script for Linux



Prebuilt

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Notes :

  • prebuilt files
  • Template Table:

    • Scroll Title
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      File

      File-Extension

      Description

      BIF-File*.bifFile with description to generate Bin-File
      BIN-File*.binFlash Configuration File with Boot-Image (Zynq-FPGAs)
      BIT-File*.bitFPGA (PL Part) Configuration File
      Boot Source*.scr

      Distro Boot file

      DebugProbes-File*.ltxDefinition File for Vivado/Vivado Labtools Debugging Interface

      Debian SD-Image

      *.img

      Debian Image for SD-Card

      Diverse Reports---Report files in different formats
      Hardware-Platform-Description-File*.xsaExported Vivado hardware description file for Vitis and PetaLinux
      LabTools Project-File*.lprVivado Labtools Project File

      MCS-File

      *.mcs

      Flash Configuration File with Boot-Image (MicroBlaze or FPGA part only)

      MMI-File

      *.mmi

      File with BRAM-Location to generate MCS or BIT-File with *.elf content (MicroBlaze only)

      OS-Image*.ubImage with Linux Kernel (On Petalinux optional with Devicetree and RAM-Disk)
      Software-Application-File*.elfSoftware Application for Zynq or MicroBlaze Processor Systems

      SREC-File

      *.srec

      Converted Software Application for MicroBlaze Processor Systems





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File

File-Extension

Description

BIF-File*.bifFile with description to generate Bin-File
BIN-File*.binFlash Configuration File with Boot-Image (Zynq-FPGAs)
BIT-File*.bitFPGA (PL Part) Configuration File
Diverse Reports---Report files in different formats
Hardware-Platform-Description-File*.xsaExported Vivado hardware description file for Vitis and PetaLinux
LabTools Project-File*.lprVivado Labtools Project File
OS-Image*.ubImage with Linux Kernel (On Petalinux optional with Devicetree and RAM-Disk)
Software-Application-File*.elfSoftware Application for Zynq or MicroBlaze Processor Systems


Download

Reference Design is only usable with the specified Vivado/Vitis/PetaLinux version. Do never use different Versions of Xilinx Software for the same Project.

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Reference Design is available on:

Design Flow

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Notes :
  • Basic Design Steps

  • Add/ Remove project specific description


Note

Reference Design is available with and without prebuilt files. It's recommended to use TE prebuilt files for first lunch.

MIO Bank 501 Power is Carrier depends and set to 3.3V. Please check Settings, if you use a own carrier.

Trenz Electronic provides a tcl based built environment based on Xilinx Design Flow.

See also:

The Trenz Electronic FPGA Reference Designs are TCL-script based project. Command files for execution will be generated with "_create_win_setup.cmd" on Windows OS and "_create_linux_setup.sh" on Linux OS.

TE Scripts are only needed to generate the vivado project, all other additional steps are optional and can also executed by Xilinx Vivado/Vitis GUI.  For currently Scripts limitations on Win and Linux OS see: Project Delivery Currently limitations of functionality

Note

Caution! Win OS has a 260 character limit for path lengths which can affect the Vivado tools. To avoid this issue, use Virtual Drive or the shortest possible names and directory locations for the reference design (for example "x:\<project folder>")

  1. Run _create_win_setup.cmd/_create_linux_setup.sh and follow instructions on shell:

    Code Block
    languagebash
    themeMidnight
    title_create_win_setup.cmd/_create_linux_setup.sh
    ------------------------Set design paths----------------------------
    -- Run Design with: _create_win_setup
    -- Use Design Path: <absolute project path>
    --------------------------------------------------------------------
    -------------------------TE Reference Design---------------------------
    --------------------------------------------------------------------
    -- (0)  Module selection guide, project creation...prebuilt export...
    -- (1)  Create minimum setup of CMD-Files and exit Batch
    -- (2)  Create maximum setup of CMD-Files and exit Batch
    -- (3)  (internal only) Dev
    -- (4)  (internal only) Prod
    -- (c)  Go to CMD-File Generation (Manual setup)
    -- (d)  Go to Documentation (Web Documentation)
    -- (g)  Install Board Files from Xilinx Board Store (beta)
    -- (a)  Start design with unsupported Vivado Version (beta)
    -- (x)  Exit Batch (nothing is done!)
    ----
    Select (ex.:'0' for module selection guide):


  2. Press 0 and enter to start "Module Selection Guide"
  3. Createproject and follow instructions of the product selection guide, settings file will be configured automatically during this process.
    • optional for manual changes: Select correct device and Xilinx install path on "design_basic_settings.cmd" and create Vivado project with "vivado_create_project_guimode.cmd"


      Note

      Note: Select correct one, see also Vivado Board Part Flow


  4. Create Project
    1. Select correct device and Xilinx install path on "design_basic_settings.cmd" and create Vivado project with "vivado_create_project_guimode.cmd"
      Note: Select correct one, see TE Board Part Files
  5. Create hardware description file (.xsa file) for PetaLinux project and export to prebuilt folder

    Code Block
    languagepy
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    titlerun on Vivado TCL (Script generates design and export files into "<project folder>\prebuilt\hardware\<short name>")
    TE::hw_build_design -export_prebuilt


    Info

    Using Vivado GUI is the same, except file export to prebuilt folder.


  6. Create and configure your PetaLinux project with exported .xsa-file, see PetaLinux KICKstart
    • use TE Template from "<project folder>\os\petalinux"
    • use exported .xsa file from "<project folder>\prebuilt\hardware\<short name>" . Note: HW Export from Vivado GUI creates another path as default workspace.

    • The build images are located in the "<plnx-proj-root>/images/linux" directory

  7. Configure the boot.scr file as needed, see Distro Boot with Boot.scr

  8. Copy PetaLinux build image files to prebuilt folder
    • copy u-boot.elf, image.ub and boot.scr from "<plnx-proj-root>/images/linux" to prebuilt folder

      Info

      "<project folder>\prebuilt\os\petalinux\<ddr size>" or "<project folder>\prebuilt\os\petalinux\<short name>"


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      This step depends on Xilinx Device/Hardware

      for Zynq-7000 series

      • copy u-boot.elf, image.ub and boot.scr from "<plnx-proj-root>/images/linux" to prebuilt folder

      for ZynqMP

      • copy u-boot.elf, bl31.elf, image.ub and boot.scr from "<plnx-proj-root>/images/linux" to prebuilt folder

      for ...

      • ...


  9. Generate Programming Files with Vitis

    Code Block
    languagepy
    themeMidnight
    titlerun on Vivado TCL (Script generates applications and bootable files, which are defined in "test_board\sw_lib\apps_list.csv")
    TE::sw_run_vitis -all
    TE::sw_run_vitis (optional; Start Vitis from Vivado GUI or start with TE Scripts on Vivado TCL)


    Note

    TCL scripts generate also platform project, this must be done manually in case GUI is used. See Vitis


Launch

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Note:

  • Programming and Startup procedure

Programming

Note

Check Module and Carrier TRMs for proper HW configuration before you try any design.

Reference Design is also available with prebuilt files. It's recommended to use TE prebuilt files for first launch.


Xilinx documentation for programming and debugging: Vivado/SDK/SDSoC-Xilinx Software Programming and Debugging

Get prebuilt boot binaries

  1. Run _create_win_setup.cmd/_create_linux_setup.sh and follow instructions on shell
  2. Press 0 and enter to start "Module Selection Guide"
    1. Select assembly version
    2. Validate selection
    3. Select create and open delivery binary folder

      Info

      Note: Folder "<project folder>\_binaries_<Article Name>" with subfolder "boot_<app name>" for different applications will be generated


QSPI-Boot mode

Option for Boot.bin on QSPI Flash and image.ub and boot.scr on SD or USB.

  1. Connect JTAG and power on carrier with module
  2. Open Vivado Project with "vivado_open_existing_project_guimode.cmd" or if not created, create with "vivado_create_project_guimode.cmd"

    Code Block
    languagepy
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    titlerun on Vivado TCL (Script programs BOOT.bin on QSPI flash)
    TE::pr_program_flash -swapp u-boot
    TE::pr_program_flash -swapp hello_te0820 (optional)


    Note

    To program with Vitis/Vivado GUI, use special FSBL (fsbl_flash) on setup


  3. Copy image.ub and boot.scr on SD or USB
    • use files from "<project folder>\_binaries_<Article Name>\boot_linux" from generated binary folder,see: Get prebuilt boot binaries
    • or use prebuilt file location, see "<project folder>\prebuilt\file_location.txt"
  4. Set Boot Mode to QSPI-Boot and insert SD or USB.
    • Depends on Carrier, see carrier TRM.

SD-Boot mode

  1. Copy image.ub, boot.src and Boot.bin on SD
    • use files from "<project folder>\_binaries_<Article Name>\boot_linux" from generated binary folder, see: Get prebuilt boot binaries
    • or use prebuilt file location, see "<project folder>\prebuilt\file_location.txt"
  2. Set Boot Mode to SD-Boot.
    • Depends on Carrier, see carrier TRM.
  3. Insert SD-Card in SD-Slot.

JTAG

Not used on this Example.

Usage

  1. Prepare HW like described on section Programming
  2. Connect UART USB (most cases same as JTAG)
  3. Select SD Card as Boot Mode (or QSPI - depending on step 1)

    Info

    Note: See TRM of the Carrier, which is used.


    Tip

    Starting with Petalinux version 2020.1, the industry standard "Distro-Boot" boot flow for U-Boot was introduced, which significantly expands the possibilities of the boot process and has the primary goal of making booting much more standardised and predictable.
    The boot options described above describe the common boot processes for this hardware; other boot options are possible.
    For more information see Distro Boot with Boot.scr


  4. Power On PCB

    Expand
    titleboot process

    1. Zynq Boot ROM loads FSBL from SD/QSPI into OCM,

    2. FSBL init PS, programs PL using the bitstream and loads U-boot from SD into DDR,

    3. U-boot loads Linux (image.ub) from SD/QSPI/... into DDR


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    This step depends on Xilinx Device/Hardware

    for Zynq-7000 series

    1. Zynq Boot ROM loads FSBL from SD/QSPI into OCM,

    2. FSBL init the PS, programs the PL using the bitstream and loads U-boot from SD/QSPI into DDR,

    3. U-boot loads Linux (image.ub) from SD/QSPI/... into DDR


    for ZynqMP???

    1. ZynqMP Boot ROM loads FSBL from SD/QSPI into OCM,

    2. FSBL init the PS, programs the PL using the bitstream and loads PMU, ATF and U-boot from SD/QSPI into DDR,

    3. U-boot loads Linux (image.ub) from SD/QSPI/... into DDR


    for Microblaze

    1. FPGA Loads Bitfile from Flash,

    2. MCS Firmware configure SI5338 and starts Microblaze,

    3. SREC Bootloader from Bitfile Firmware loads U-Boot into DDR (This takes a while),

    4. U-boot loads Linux from QSPI Flash into DDR


    for native FPGA

    ...


Linux

  1. Open Serial Console (e.g. putty)
    • Speed: 115200
    • select COM Port

      Info

      Win OS, see device manager, Linux OS see dmesg |grep tty (UART is *USB1)


  2. Linux Console:

    Code Block
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    petalinux login: root
    Password: root


    Info

    Note: Wait until Linux boot finished


  3. You can use Linux shell now.

    Code Block
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    i2cdetect -y -r 0	              (check I2C 0 Bus)
    dmesg | grep rtc	              (RTC check)
    udhcpc				              (ETH0/ETH1 check)
    cd /etc/init.d/networking restart (Network setting can be reset if it is necessary)
    ifconfig            (It is visible that both ethernet devices eth0 and eth1 have their own IP address.)



System Design - Vivado

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Note:

  • Description of Block Design, Constrains... BD Pictures from Export...

Block Design

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Image Added



PS Interfaces

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Note:

  • optional for Zynq / ZynqMP only

  • add basic PS configuration


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TypeNote
DDR---
QSPIMIO
CAN1MIO
ETH0EMIO
ETH1EMIO
SD0MIO
UART1MIO
I2C0MIO
SPI1MIO
CAN1MIO
GPIOMIO
WDTEMIO
TTC0..1EMIO


Constrains

Basic module constrains

Code Block
languageruby
title_i_bitgen_common.xdc
#
# Common bitgen related settings
#

set_property BITSTREAM.GENERAL.COMPRESS TRUE [current_design]
set_property CONFIG_VOLTAGE 3.3 [current_design]
set_property CFGBVS VCCO [current_design]

set_property BITSTREAM.CONFIG.USR_ACCESS TIMESTAMP [current_design]

Design specific constrain

Code Block
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title_i_eth.xdc
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#############
#ETH0/ETH1
#####
#pwr_down
set_property PACKAGE_PIN L21 [get_ports {PHY_PD[0]}]
set_property PACKAGE_PIN R20 [get_ports {PHY_PD[1]}]
#rst_n
set_property PACKAGE_PIN M15 [get_ports {PHY_RSTN[0]}]
set_property PACKAGE_PIN R16 [get_ports {PHY_RSTN[1]}]
#io standard
set_property IOSTANDARD LVCMOS33 [get_ports {PHY*}]
set_property IOSTANDARD LVCMOS33 [get_ports MDIO_*]
set_property IOSTANDARD LVCMOS33 [get_ports {MII_*}]
#pullup/down for PHY address 1
set_property PULLUP   true [get_ports MII_col]
set_property PULLDOWN true [get_ports {MII_rxd[0]}]
set_property PULLDOWN true [get_ports {MII_rxd[1]}]
set_property PULLDOWN true [get_ports {MII_rxd[2]}]
set_property PULLDOWN true [get_ports {MII_rxd[3]}]
#pullup/down for PHY address 3
set_property PULLUP true [get_ports MII_1_col]
set_property PULLUP true [get_ports {MII_1_rxd[0]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[1]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[2]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[3]}]

#############
#ETH0
#####
set_property PACKAGE_PIN M16 [get_ports MDIO_ETHERNET_0_mdio_io]
set_property PACKAGE_PIN P16 [get_ports MDIO_ETHERNET_0_mdc]
set_property PACKAGE_PIN M22 [get_ports {MII_txd[3]}]
set_property PACKAGE_PIN K21 [get_ports {MII_txd[2]}]
set_property PACKAGE_PIN M17 [get_ports {MII_txd[1]}]
set_property PACKAGE_PIN J22 [get_ports {MII_txd[0]}]
set_property PACKAGE_PIN J20 [get_ports {MII_rxd[3]}]
set_property PACKAGE_PIN J18 [get_ports {MII_rxd[2]}]
set_property PACKAGE_PIN K18 [get_ports {MII_rxd[1]}]
set_property PACKAGE_PIN L17 [get_ports {MII_rxd[0]}]
set_property PACKAGE_PIN L16 [get_ports MII_col]
set_property PACKAGE_PIN N15 [get_ports MII_crs]
set_property PACKAGE_PIN L18 [get_ports MII_rx_clk]
set_property PACKAGE_PIN P15 [get_ports MII_rx_dv]
set_property PACKAGE_PIN P17 [get_ports MII_rx_er]
set_property PACKAGE_PIN K19 [get_ports MII_tx_clk]
set_property PACKAGE_PIN J21 [get_ports MII_tx_en]

#############
#ETH1
#####
set_property PACKAGE_PIN T16 [get_ports MDIO_ETHERNET_1_mdio_io]
set_property PACKAGE_PIN T17 [get_ports MDIO_ETHERNET_1_mdc]
set_property PACKAGE_PIN R21 [get_ports {MII_1_txd[3]}]
set_property PACKAGE_PIN P22 [get_ports {MII_1_txd[2]}]
set_property PACKAGE_PIN P21 [get_ports {MII_1_txd[1]}]
set_property PACKAGE_PIN N22 [get_ports {MII_1_txd[0]}]
set_property PACKAGE_PIN T19 [get_ports {MII_1_rxd[3]}]
set_property PACKAGE_PIN T18 [get_ports {MII_1_rxd[2]}]
set_property PACKAGE_PIN R19 [get_ports {MII_1_rxd[1]}]
set_property PACKAGE_PIN R18 [get_ports {MII_1_rxd[0]}]
set_property PACKAGE_PIN P20 [get_ports MII_1_col]
set_property PACKAGE_PIN N18 [get_ports MII_1_crs]
set_property PACKAGE_PIN M19 [get_ports MII_1_rx_clk]
set_property PACKAGE_PIN N17 [get_ports MII_1_rx_dv]
set_property PACKAGE_PIN P18 [get_ports MII_1_rx_er]
set_property PACKAGE_PIN N19 [get_ports MII_1_tx_clk]
set_property PACKAGE_PIN M21 [get_ports MII_1_tx_en]

Software Design - Vitis

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Note:
  • optional chapter separate

  • sections for different apps



For Vitis project creation, follow instructions from:

Vitis

Application

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----------------------------------------------------------

FPGA Example

scu

MCS Firmware to configure SI5338 and Reset System.

srec_spi_bootloader

TE modified 2020.2 SREC

Bootloader to load app or second bootloader from flash into DDR

Descriptions:

  • Modified Files: blconfig.h, bootloader.c
  • Changes:
    • Add some console outputs and changed bootloader read address.
    • Add bugfix for 2018.2 qspi flash

xilisf_v5_11

TE modified 2020.2 xilisf_v5_11

  • Changed default Flash type to 5.

----------------------------------------------------------

Zynq Example:

fsbl

TE modified 2020.2 FSBL

General:

  • Modified Files: main.c, fsbl_hooks.h/.c (search for 'TE Mod' on source code)
  • Add Files: te_fsbl_hooks.h/.c (for hooks and board)

  • General Changes: 
    • Display FSBL Banner and Device ID

Module Specific:

  • Add Files: all TE Files start with te_*
    • READ MAC from EEPROM and make Address accessible by UBOOT (need copy defines on uboot platform-top.h)
    • CPLD access
    • Read CPLD Firmware and SoC Type
    • Configure Marvell PHY

fsbl_flash

TE modified 2020.2 FSBL

General:

  • Modified Files: main.c
  • General Changes:
    • Display FSBL Banner
    • Set FSBL Boot Mode to JTAG
    • Disable Memory initialisation

ZynqMP Example:

----------------------------------------------------------

zynqmp_fsbl

TE modified 2020.2 FSBL

General:

  • Modified Files: xfsbl_main.c, xfsbl_hooks.h/.c, xfsbl_board.h/.c (search for 'TE Mod' on source code)
  • Add Files: te_xfsbl_hooks.h/.c (for hooks and board)
  • General Changes: 
    • Display FSBL Banner and Device Name

Module Specific:

  • Add Files: all TE Files start with te_*
    • Si5338 Configuration
    • ETH+OTG Reset over MIO

zynqmp_fsbl_flash

TE modified 2020.2 FSBL

General:

  • Modified Files: xfsbl_initialisation.c, xfsbl_hw.h, xfsbl_handoff.c, xfsbl_main.c
  • General Changes:
    • Display FSBL Banner
    • Set FSBL Boot Mode to JTAG
    • Disable Memory initialisation


zynqmp_pmufw

Xilinx default PMU firmware.

----------------------------------------------------------

General Example:

hello_te0820

Hello TE0820 is a Xilinx Hello World example as endless loop instead of one console output.

u-boot

U-Boot.elf is generated with PetaLinux. Vitis is used to generate Boot.bin.

Template location: "<project folder>\sw_lib\sw_apps\"

zynq_fsbl

TE modified 2020.2 FSBL

General:

  • Modified Files: main.c, fsbl_hooks.h/.c (search for 'TE Mod' on source code)
  • Add Files: te_fsbl_hooks.h/.c (for hooks and board)

  • General Changes: 
    • Display FSBL Banner and Device ID

Module Specific:

  • only active FSBL banner independence form debug flags

zynq_fsbl_flash

TE modified 2020.2 FSBL

FSBL(for Vivado/Vitis GUI only) to initialise Zynq for QSPI programming

General:

  • Modified Files: main.c
  • General Changes:
    • Display FSBL Banner
    • Set FSBL Boot Mode to JTAG
    • Disable Memory initialisation

hello_te0728

Hello TE0728 is a Xilinx Hello World example as endless loop instead of one console output.

u-boot

U-Boot.elf is generated with PetaLinux. Vitis is used to generate Boot.bin.

Software Design -  PetaLinux

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Note:
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  • sections for linux

  • Add "No changes." or "Activate: and add List"


For PetaLinux installation and project creation, follow instructions from:

Config

Start with petalinux-config or petalinux-config --get-hw-description

Changes:

  • No changes.

U-Boot

Start with petalinux-config -c u-boot

Changes:

  • No changes.

Device Tree

Code Block
languagejs
/include/ "system-conf.dtsi"
/ {
};
 
/* QSPI PHY */
&qspi {
    #address-cells = <1>;
    #size-cells = <0>;
    status = "okay";
    flash0: flash@0 {
        compatible = "jedec,spi-nor";
        reg = <0x0>;
        #address-cells = <1>;
        #size-cells = <1>;
    };
};
 

/* SDIO */
 
&sdhci0 {
   disable-wp;
};
 

/* ETH PHY */
 
&gem0{
    status = "okay";
    phy-mode = "mii";
    phy-handle = <&phy1>;
    xlnx,has-mdio = <0x1>;
    mdio {
        #address-cells = <1>;
        #size-cells = <0>;
        phy1: phy@1 {
            device_type = "ethernet-phy";
            compatible = "ethernet-phy-id2000.5C90";
        max-speed = <0x64>;
            reg = <1>;
        };
    };
};
 
 
&gem1{
    status = "okay";
    phy-mode = "mii";
    phy-handle = <&phy3>;
    xlnx,has-mdio = <0x1>;
    mdio {
        #address-cells = <1>;
        #size-cells = <0>;
        phy3: phy@3 {
            device_type = "ethernet-phy";
        compatible = "ethernet-phy-id2000.5C90";
        max-speed = <0x64>;
            reg = <3>;
        };
    };
};
 
 
/* RTC */
&i2c0 {
    rtc@56 {        // Real Time Clock
       compatible = "rv3029c2";
       reg = <0x56>;
   };
  
};      

FSBL patch

Must be add manually, see template

Kernel

Start with petalinux-config -c kernel

Changes:

  • RTC_DRV_RV3029C2=y
  • DP83848_PHY=y

Rootfs

Start with petalinux-config -c rootfs

Changes:

  • I2C-tools=y
  • CONFIG_util-linux-mount=y
  • CONFIG_util-linux-umount=y
  • busybox-httpd = y
  • CONFIG_util-linux-umount=y
  • CONFIG_util-linux-mount=y

Applications

See "<project folder>\os\petalinux\project-spec\meta-user\recipes-apps\"

startup

Script App to load init.sh from SD Card if available.

See: \os\petalinux\project-spec\meta-user\recipes-apps\startup\files

webfwu

Webserver application suitable for Zynq access. Need busybox-httpd

See: \os\petalinux\project-spec\meta-user\recipes-apps\webfwu\files


Additional Software

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Note:
  • Add description for other Software, for example SI CLK Builder ...
  • SI5338 and SI5345 also Link to:

No additional software is needed.

Appx. A: Change History and Legal Notices

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  • style changes Revision table
  • remove CLBPro from source list
2021-11-03v.14Mohsen Chamanbaz
  • Release 2020.2
2018-12-12v.13John Hartfiel
  • Release 2018.2
  • Design and Documentation is changed

2018-02-08

v.10John Hartfiel
  • Release 2017.2

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Table of contents

Table of Contents
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Overview

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General Design description
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Zynq Design PS with Linux and  two Ethernet PHYs connected over EMIO and PL.

Key Features

 

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Excerpt
  • PetaLinux
  • SD
  • 2x ETH (Independent MDIO Interface)
  • I2C
  • RTC

Revision History

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...

Release Notes and Know Issues

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...

Linux Message: "macb ... .ethernet eth...: unable to generate target frequency: 25000000 Hz"

...

Requirements

Software

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...

Hardware

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Hardware Support
   -->

Basic description of TE Board Part Files is available on TE Board Part Files.

Complete List is available on <design name>/board_files/*_board_files.csv

Design supports following modules:

...

Design supports following carriers:

...

Additional HW Requirements:

...

Content

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For general structure and of the reference design, see Project Delivery

Design Sources

...

Additional Sources

...

Prebuilt

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<table width="100%">
<tr> <th>File                                 </th> <th>File-Extension</th>  <th>Description                                                                              </th> </tr>
<tr> <td>BIF-File                             </td> <td>*.bif         </td>  <td>File with description to generate Bin-File                                               </td> </tr>
<tr> <td>BIN-File                             </td> <td>*.bin         </td>  <td>Flash Configuration File with Boot-Image (Zynq-FPGAs)                                    </td> </tr>
<tr> <td>BIT-File                             </td> <td>*.bit         </td>  <td>FPGA Configuration File                                                                  </td> </tr>
<tr> <td>DebugProbes-File                     </td> <td>*.ltx         </td>  <td>Definition File for Vivado/Vivado Labtools Debugging Interface                           </td> </tr>
<tr> <td>Debian SD-Image                      </td> <td>*.img         </td>  <td>Debian Image for SD-Card                                                                </td> </tr>
<tr> <td>Diverse Reports                      </td> <td>  ---         </td>  <td>Report files in different formats                                                        </td> </tr>
<tr> <td>Hardware-Platform-Specification-Files</td> <td>*.hdf         </td>  <td>Exported Vivado Hardware Specification for SDK/HSI                                       </td> </tr>
<tr> <td>LabTools Project-File                </td> <td>*.lpr         </td>  <td>Vivado Labtools Project File                                                             </td> </tr>
<tr> <td>MCS-File                             </td> <td>*.mcs         </td>  <td>Flash Configuration File with Boot-Image (MicroBlaze or FPGA part only)                  </td> </tr>
<tr> <td>MMI-File                             </td> <td>*.mmi         </td>  <td>File with BRAM-Location to generate MCS or BIT-File with *.elf content (MicroBlaze only) </td> </tr>
<tr> <td>OS-Image                             </td> <td>*.ub          </td>  <td>Image with Linux Kernel (On Petalinux optional with Devicetree and RAM-Disk)             </td> </tr>
<tr> <td>Software-Application-File            </td> <td>*.elf         </td>  <td>Software Application for Zynq or MicroBlaze Processor Systems                            </td> </tr>
<tr> <td>SREC-File                            </td> <td>*.srec        </td>  <td>Converted Software Application for MicroBlaze Processor Systems                          </td> </tr>    
</table>
-->

...

File

...

File-Extension

...

Description

...

Download

Reference Design is only usable with the specified Vivado/SDK/PetaLinux/SDx version. Do never use different Versions of Xilinx Software for the same Project.

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Reference Design is available on:

Design Flow

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Basic Design Steps
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Note

Reference Design is available with and without prebuilt files. It's recommended to use TE prebuilt files for first lunch.

MIO Bank 501 Power is Carrier depends and set to 3.3V. Please check Settings, if you use a own carrier.

Trenz Electronic provides a tcl based built environment based on Xilinx Design Flow.

See also:

The Trenz Electronic FPGA Reference Designs are TCL-script based project. Command files for execution will be generated with "_create_win_setup.cmd" on Windows OS and "_create_linux_setup.sh" on Linux OS.

TE Scripts are only needed to generate the vivado project, all other additional steps are optional and can also executed by Xilinx Vivado/SDK GUI.  For currently Scripts limitations on Win and Linux OS see: Project Delivery Currently limitations of functionality

 

  1. _create_win_setup.cmd/_create_linux_setup.sh and follow instructions on shell:
    Image Removed
  2. Press 0 and enter for minimum setup
  3. (optional Win OS) Generate Virtual Drive or use short directory  for the reference design (for example x:\<design name>)
  4. Create Project
    1. Select correct device and Xilinx install path on "design_basic_settings.cmd" and create Vivado project with "vivado_create_project_guimode.cmd"
      Note: Select correct one, see TE Board Part Files
  5. Create HDF and export to prebuilt folder
    1. Run on Vivado TCL: TE::hw_build_design -export_prebuilt
      Note: Script generate design and export files into \prebuilt\hardware\<short dir>. Use GUI is the same, except file export to prebuilt folder
  6. Create Linux (uboot.elf and image.ub) with exported HDF
    1. HDF is exported to "prebuilt\hardware\<short name>"
      Note: HW Export from Vivado GUI create another path as default workspace.
    2. Create Linux images on VM, see PetaLinux KICKstart
      1. Use TE Template from /os/petalinux
        Note: run init_config.sh before you start petalinux config. This will set correct temporary path variable.
  7. Add Linux files (uboot.elf and image.ub) to prebuilt folder
    1. "prebuilt\os\petalinux\default" or "prebuilt\os\petalinux\<short name>"
      Notes: Scripts select "prebuilt\os\petalinux\<short name>", if exist, otherwise "prebuilt\os\petalinux\default"
  8. Generate Programming Files with HSI/SDK
    1. Run on Vivado TCL: TE::sw_run_hsi
      Note: Scripts generate applications and bootable files, which are defined in "sw_lib\apps_list.csv"
    2. (alternative) Start SDK with Vivado GUI or start with TE Scripts on Vivado TCL: TE::sw_run_sdk
      Note: See SDK Projects

Launch

Programming

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Note

Check Module and Carrier TRMs for proper HW configuration before you try any design.

Xilinx documentation for programming and debugging: Vivado/SDK/SDSoC-Xilinx Software Programming and Debugging

QSPI

Not used on this Example.

SD

  1. Copy image.ub and Boot.bin on SD-Card.
    • For correct prebuilt file location, see <design_name>/prebuilt/readme_file_location.txt
  2. Set Boot Mode to SD-Boot.
    • Depends on Carrier, see carrier TRM.
  3. Insert SD-Card in SD-Slot.

JTAG

Not used on this Example.

Usage

  1. Prepare HW like described on section Programming
  2. Connect UART USB (most cases same as JTAG)
  3. Select SD Card as Boot Mode
    Note: See TRM of the Carrier, which is used.
  4. Power On PCB
    Note: 1. Zynq Boot ROM loads FSBL from SD into OCM, 2. FSBL loads U-boot from SD into DDR, 3. U-boot load Linux from SD into DDR

Linux

  1. Open Serial Console (e.g. putty)
    1. Speed: 115200
    2. COM Port: Win OS, see device manager, Linux OS see  dmesg |grep tty  (UART is *USB1)
  2. Linux Console:
    Note: Wait until Linux boot finished For Linux Login use:
    1. User Name: root
    2. Password: root
  3. You can use Linux shell now.
    1. I2C 0 Bus type: i2cdetect -y -r 0
    2. ETH0 works with udhcpc
    3. ETH1 must be configured manually
      1. ifconfig eth1 up
      2. ifconfig eth1 <ip>
        Note for Ping test disable ETH0
    4. RTC check: dmesg | grep rtc

 

System Design - Vivado

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Block Design

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PS Interfaces

...

 

Constrains

Basic module constrains

Code Block
languageruby
title_i_bitgen_common.xdc
#
# Common bitgen related settings
#

set_property BITSTREAM.GENERAL.COMPRESS TRUE [current_design]
set_property CONFIG_VOLTAGE 3.3 [current_design]
set_property CFGBVS VCCO [current_design]

set_property BITSTREAM.CONFIG.USR_ACCESS TIMESTAMP [current_design]

Design specific constrain

Code Block
languageruby
title_i_eth.xdc
linenumberstrue
collapsetrue
#############
#ETH0/ETH1
#####
#pwr_down
set_property PACKAGE_PIN L21 [get_ports {PHY_PD[0]}]
set_property PACKAGE_PIN R20 [get_ports {PHY_PD[1]}]
#rst_n
set_property PACKAGE_PIN M15 [get_ports {PHY_RSTN[0]}]
set_property PACKAGE_PIN R16 [get_ports {PHY_RSTN[1]}]
#io standard
set_property IOSTANDARD LVCMOS33 [get_ports {PHY*}]
set_property IOSTANDARD LVCMOS33 [get_ports mdio_*]
set_property IOSTANDARD LVCMOS33 [get_ports MDIO_*]
set_property IOSTANDARD LVCMOS33 [get_ports {MII_*}]
#pullup/down for PHY address 1
set_property PULLUP   true [get_ports MII_col]
set_property PULLDOWN true [get_ports {MII_rxd[0]}]
set_property PULLDOWN true [get_ports {MII_rxd[1]}]
set_property PULLDOWN true [get_ports {MII_rxd[2]}]
set_property PULLDOWN true [get_ports {MII_rxd[3]}]
#pullup/down for PHY address 2
set_property PULLDOWN true [get_ports MII_1_col]
set_property PULLUP   true [get_ports {MII_1_rxd[0]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[1]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[2]}]
set_property PULLDOWN true [get_ports {MII_1_rxd[3]}]

#############
#ETH0
#####
set_property PACKAGE_PIN M16 [get_ports mdio_ethernet_0_mdio_io]
set_property PACKAGE_PIN P16 [get_ports MDIO_ETHERNET_0_mdc]
set_property PACKAGE_PIN M22 [get_ports {MII_txd[3]}]
set_property PACKAGE_PIN K21 [get_ports {MII_txd[2]}]
set_property PACKAGE_PIN M17 [get_ports {MII_txd[1]}]
set_property PACKAGE_PIN J22 [get_ports {MII_txd[0]}]
set_property PACKAGE_PIN J20 [get_ports {MII_rxd[3]}]
set_property PACKAGE_PIN J18 [get_ports {MII_rxd[2]}]
set_property PACKAGE_PIN K18 [get_ports {MII_rxd[1]}]
set_property PACKAGE_PIN L17 [get_ports {MII_rxd[0]}]
set_property PACKAGE_PIN L16 [get_ports MII_col]
set_property PACKAGE_PIN N15 [get_ports MII_crs]
set_property PACKAGE_PIN L18 [get_ports MII_rx_clk]
set_property PACKAGE_PIN P15 [get_ports MII_rx_dv]
set_property PACKAGE_PIN P17 [get_ports MII_rx_er]
set_property PACKAGE_PIN K19 [get_ports MII_tx_clk]
set_property PACKAGE_PIN J21 [get_ports MII_tx_en]

#############
#ETH1
#####
set_property PACKAGE_PIN T16 [get_ports mdio_ethernet_1_mdio_io]
set_property PACKAGE_PIN T17 [get_ports MDIO_ETHERNET_1_mdc]
set_property PACKAGE_PIN R21 [get_ports {MII_1_txd[3]}]
set_property PACKAGE_PIN P22 [get_ports {MII_1_txd[2]}]
set_property PACKAGE_PIN P21 [get_ports {MII_1_txd[1]}]
set_property PACKAGE_PIN N22 [get_ports {MII_1_txd[0]}]
set_property PACKAGE_PIN T19 [get_ports {MII_1_rxd[3]}]
set_property PACKAGE_PIN T18 [get_ports {MII_1_rxd[2]}]
set_property PACKAGE_PIN R19 [get_ports {MII_1_rxd[1]}]
set_property PACKAGE_PIN R18 [get_ports {MII_1_rxd[0]}]
set_property PACKAGE_PIN P20 [get_ports MII_1_col]
set_property PACKAGE_PIN N18 [get_ports MII_1_crs]
set_property PACKAGE_PIN M19 [get_ports MII_1_rx_clk]
set_property PACKAGE_PIN N17 [get_ports MII_1_rx_dv]
set_property PACKAGE_PIN P18 [get_ports MII_1_rx_er]
set_property PACKAGE_PIN N19 [get_ports MII_1_tx_clk]
set_property PACKAGE_PIN M21 [get_ports MII_1_tx_en]

Software Design - SDK/HSI

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For SDK project creation, follow instructions from:

SDK Projects

Application

FSBL

Xilinx default FSBL

U-Boot

U-Boot.elf is generated with PetaLinux. SDK/HSI is used to generate Boot.bin.

Software Design -  PetaLinux

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optional chapter
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Description currently not available.

Config

No changes.

U-Boot

No changes.

Device Tree

Code Block
languagejs
/include/ "system-conf.dtsi"
/ {
};

/* ETH PHY */
&gem0 {
    phy-mode = "mii";
    status = "okay";
        ethernet_phy0: ethernet-phy@0 {
        // compatible = "marvell,88e1510";
        device_type = "ethernet-phy";
                reg = <1>;
    };
};

&gem1 {
    phy-mode = "mii";
    status = "okay";
    local-mac-address = [00 0a 35 00 1e 01];
        ethernet_phy1: ethernet-phy@1 {
        // compatible = "marvell,88e1510";
        device_type = "ethernet-phy";
                reg = <2>;
    };
};

/* RTC */

&i2c0 {
    rtc@56 {        // Real Time Clock
       compatible = "rv3029c2";
       reg = <0x56>;
   };
 
};



Kernel

Activate:

  • RTC_DRV_RV3029C2

Rootfs

Activate:

  • I2C-tools

Applications

startup

Script App to load init.sh from SD Card if available.

See: \os\petalinux\project-spec\meta-user\recipes-apps\startup\files

Additional Software

HTML
<!--
Add Description for other Software, for example SI CLK Builder ...
 -->

No additional software is needed.

Appx. A: Change History and Legal Notices

Document Change History

To get content of older revision  got to "Change History"  of this page and select older document revision number.

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...

2017-09-11v.1

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  • Initial release

...


All

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modified-users

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Legal Notices

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IN:Legal Notices
IN:Legal Notices

...



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