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LiteX boards files
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Copyright 2012-2024 / LiteX-Hub community
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[![ ](https://github.com/litex-hub/litex-boards/workflows/ci/badge.svg )](https://github.com/litex-hub/litex-boards/actions) ![License ](https://img.shields.io/badge/License-BSD%202--Clause-orange.svg )
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[> Intro
--------
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< figure >
< p align = "center" >
< img src = "https://user-images.githubusercontent.com/1450143/88511626-73792100-cfe5-11ea-8d3e-dbeea6314e15.JPG" >
< / p >
< figcaption >
< p align = "center" >
From the very tiny Fomu to large PCIe accelerator boards....
< / p >
< / figcaption >
< / figure >
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This repository contains the platforms/targets currently supported by LiteX:
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- The platform provides the definition of the board: IOs, constraints, clocks, components + methods to load and flash the bitstream to it.
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- The target provides a LiteX base design for the board that allows you to create a SoC (with or without a CPU) and integrate easily all the base components of your board: Ethernet, DRAM, PCIe, SPIFlash, SDCard, Leds, GPIOs, etc...
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The targets can be used as a base to build more complex or custom SoCs. They are are for example directly reused by the [Linux-on-LiteX-VexRiscv ](https://github.com/litex-hub/linux-on-litex-vexriscv ) project that is just using a specific configuration (Linux-capable CPU, additional peripherals). Basing your design on provided targets allows to to reduce code duplication between very various projects.
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First make sure to install LiteX correctly by following the [installation guide ](https://github.com/enjoy-digital/litex/wiki/Installation ) and have a look at the [LiteX's wiki ](https://github.com/enjoy-digital/litex/wiki ) for [tutorials ](https://github.com/enjoy-digital/litex/wiki/Tutorials-Resources ), [examples of projects ](https://github.com/enjoy-digital/litex/wiki/Projects ) and more information to use/build FPGA designs with it.
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Each target provides a default configuration with a CPU, ROM, SRAM, UART, DRAM (if available), Ethernet (if available), etc... that can be simply built and loaded to the FPGA with:
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$ python3 -m litex_boards.targets.< board > --build --load
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You can then open a terminal on the main UART of the board and interact with the LiteX BIOS:
< p align = "center" > < img src = "https://raw.githubusercontent.com/enjoy-digital/litex/master/doc/bios_screenshot.png" > < / p >
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**Build/Compilation behavior:**
- python3 -m litex_boards.targets.board : Test LiteX/Migen syntax but does not generate anything.
- Add `--build` to generate the SoC/Software headers and run the Software/Gateware compilation.
- Add `--no-compile` to disable the Softwate/Gateware compilation.
- Add `--no-compile-software` to disable the Software compilation.
- Add `--no-compile-gateware` to disable the Gateware compilation.
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But this is just the starting point to create your own hardware! You can then:
- Change the CPU: add `--cpu-type=lm32, microwatt, serv, rocket, etc... `
- Change the Bus standard: add `--bus-standard=wishbone, axi-lite`
- Enable components: add `--with-ethernet --with-etherbone --with-sdcard etc...`
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- [Load application code to the CPU ](https://github.com/enjoy-digital/litex/wiki/Load-Application-Code-To-CPU ) over UART/Ethernet/SDCard, etc...
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- Create a bridge with your computer to easily [access the main bus of your SoC ](https://github.com/enjoy-digital/litex/wiki/Use-Host-Bridge-to-control-debug-a-SoC ).
- Add a Logic Analyzer to your SoC to easily [observe/debug your design ](https://github.com/enjoy-digital/litex/wiki/Use-LiteScope-To-Debug-A-SoC ).
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- Simulate your SoC and interact with it at decent speed with [LiteX Sim ](https://github.com/enjoy-digital/litex/blob/master/litex/tools/litex_sim.py )/Verilator.
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- Integrate external cores/CPU to create your own design.
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- etc...
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Please use `python3 -m litex_boards.targets.<board> --help` to see the pre-built various possibilities.
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Hoping you will find this useful and enjoy it, please contribute back if you make improvements that could be useful to others or find issues!
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**A question or want to get in touch? Our IRC channel is [#litex at irc.libera.chat ](https://web.libera.chat/#litex )**
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[> Supported boards
-------------------
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LiteX-Boards currently supports > 150 boards from very various FPGA Vendors (Xilinx, Intel, Lattice, Efinix, Gowin, etc...)!
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Some of these boards are fully open-hardware boards (Fomu, NeTV2, OrangeCrab, Butterstick, etc...) with FPGAs often supported by the open-source toolchains, some of them are repurposed off-the-shelf hardware (Colorlight 5A/I5/I9, SQRL Acorn CLE 215+, FK33, Siglent SDS1104X-E, Decklink Mini 4k, etc...) and we also of course support popular/regular FPGA dev boards :)
Most of the peripherals present are generally supported: DRAM, UART, Ethernet, SPI-Flash, SDCard, PCIe, SATA, etc... making LiteX-Boards' targets hopefully a good base infrastructure to create your own custom SoCs!
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> **Note:** All boards with >= 32MB of memory and enough logic can be considered as Linux Capable, have a look at [Linux-on-LiteX-Vexriscv](https://github.com/litex-hub/linux-on-litex-vexriscv) project to try Linux on your FPGA board!
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< figure >
< p align = "center" >
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< img src = "https://user-images.githubusercontent.com/1450143/156173620-355c6f1d-87dc-4dda-be45-910bf379ae9a.jpg" >
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< / p >
< figcaption >
< p align = "center" >
Some of the suported boards, see yours? Give LiteX-Boards a try!
< / p >
< / figcaption >
< / figure >
[> Boards list
---------------
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├── adi_adrv2crr_fmc
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├── adi_plutosdr
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├── alchitry_au
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├── alchitry_cu
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├── alchitry_mojo
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├── aliexpress_xc7k420t
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├── aliexpress_xc7k70t
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├── alinx_ax7010
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├── alinx_axu2cga
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├── analog_pocket
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├── antmicro_artix_dc_scm
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├── antmicro_datacenter_ddr4_test_board
├── antmicro_lpddr4_test_board
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├── antmicro_sdi_mipi_video_converter
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├── arduino_mkrvidor4000
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├── avalanche
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├── avnet_aesku40
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├── berkeleylab_marblemini
├── berkeleylab_marble
├── camlink_4k
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├── colognechip_gatemate_evb
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├── colorlight_5a_75b
├── colorlight_5a_75e
├── colorlight_i5
├── decklink_intensity_pro_4k
├── decklink_mini_4k
├── decklink_quad_hdmi_recorder
├── digilent_arty
├── digilent_arty_s7
├── digilent_arty_z7
├── digilent_atlys
├── digilent_basys3
├── digilent_cmod_a7
├── digilent_genesys2
├── digilent_nexys4ddr
├── digilent_nexys4
├── digilent_nexys_video
├── digilent_pynq_z1
├── digilent_zedboard
├── digilent_zybo_z7
├── ebaz4205
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├── efinix_t8f81_dev_kit
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├── efinix_titanium_ti60_f225_dev_kit
├── efinix_trion_t120_bga576_dev_kit
├── efinix_trion_t20_bga256_dev_kit
├── efinix_trion_t20_mipi_dev_kit
├── efinix_xyloni_dev_kit
├── ego1
├── enclustra_mercury_kx2
├── enclustra_mercury_xu5
├── fairwaves_xtrx
├── fpc_iii
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├── fpgawars_alhambra2
├── gadgetfactory_papilio_pro
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├── gsd_butterstick
├── gsd_orangecrab
├── hackaday_hadbadge
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├── hseda_xc7a35t
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├── icebreaker_bitsy
├── icebreaker
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├── ice_v_wireless
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├── isx_im1283
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├── jungle_electronics_fireant
├── kosagi_fomu_evt
├── kosagi_fomu_hacker
├── kosagi_fomu_pvt
├── kosagi_netv2
├── krtkl_snickerdoodle
├── lambdaconcept_ecpix5
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├── lambdaconcept_pcie_screamer_m2
├── lambdaconcept_pcie_screamer
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├── lattice_crosslink_nx_evn
├── lattice_crosslink_nx_vip
├── lattice_ecp5_evn
├── lattice_ecp5_vip
├── lattice_ice40up5k_evn
├── lattice_machxo3
├── lattice_versa_ecp5
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├── limesdr_mini_v2
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├── linsn_rv901t
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├── litex_acorn_baseboard
├── logicbone
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├── machdyne_konfekt
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├── machdyne_kopflos
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├── machdyne_krote
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├── machdyne_minze
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├── machdyne_mozart_ml1
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├── machdyne_noir
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├── machdyne_schoko
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├── marblemini
├── marble
├── micronova_mercury2
├── mist
├── mnt_rkx7
├── muselab_icesugar_pro
├── muselab_icesugar
├── myminieye_runber
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├── newae_cw305
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├── numato_aller
├── numato_mimas_a7
├── numato_nereid
├── numato_tagus
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├── ocp_tap_timecard
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├── olimex_gatemate_a1_evb
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├── opalkelly_xem8320
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├── pano_logic_g2
├── qmtech_10cl006
├── qmtech_5cefa2
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├── qmtech_artix7_fbg484
├── qmtech_artix7_fgg676
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├── qmtech_ep4ce15_starter_kit
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├── qmtech_ep4cex5
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├── qmtech_ep4cgx150
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├── qmtech_kintex7_devboard
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├── qmtech_wukong
├── qmtech_xc7a35t
├── quicklogic_quickfeather
├── qwertyembedded_beaglewire
├── radiona_ulx3s
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├── radiona_ulx4m_ld_v2
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├── rcs_arctic_tern_bmc_card
├── redpitaya
├── rz_easyfpga
├── saanlima_pipistrello
├── scarabhardware_minispartan6
├── seeedstudio_spartan_edge_accelerator
├── siglent_sds1104xe
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├── sipeed_tang_nano_20k
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├── sipeed_tang_nano_4k
├── sipeed_tang_nano_9k
├── sipeed_tang_nano
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├── sipeed_tang_mega_138k_pro
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├── sipeed_tang_primer_20k
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├── sipeed_tang_primer_25k
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├── sipeed_tang_primer
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├── sitlinv_a_e115fb
├── sitlinv_stlv7325
├── sitlinv_xc7k420t
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├── sqrl_acorn
├── sqrl_fk33
├── sqrl_xcu1525
├── terasic_de0nano
├── terasic_de10lite
├── terasic_de10nano
├── terasic_de1soc
├── terasic_de2_115
├── terasic_deca
├── terasic_sockit
├── tinyfpga_bx
├── trellisboard
├── trenz_c10lprefkit
├── trenz_cyc1000
├── trenz_max1000
├── trenz_te0725
├── trenz_tec0117
├── tul_pynq_z2
├── xilinx_ac701
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├── xilinx_alveo_u200
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├── xilinx_alveo_u250
├── xilinx_alveo_u280
├── xilinx_kc705
├── xilinx_kcu105
├── xilinx_kv260
├── xilinx_sp605
├── xilinx_vc707
├── xilinx_vcu118
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├── xilinx_zc706
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├── xilinx_zcu102
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├── xilinx_zcu104
├── xilinx_zcu106
├── xilinx_zcu216
└── ztex213