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Frédéric Blanc, 2023-07-04 10:55


Xilink Vivado

installation Ubuntu 20.04

sur le site de xilinx telecharger:
https://www.xilinx.com/support/download.html
Xilinx Unified Installer 2020.1: Linux Self Extracting Web Installer

en root

sudo bash
export XILINXD_LICENSE_FILE=2100@flexalter.laas.fr
chmod +x Xilinx_Unified_2020.1_0602_1208_Lin64.bin
sudo ./Xilinx_Unified_2020.1_0602_1208_Lin64.bin

echo $XILINXD_LICENSE_FILE

https://danielmangum.com/posts/vivado-2020-x-ubuntu-20-04/

installation Windows

Vivado 2022.2

Windows 64-bit: Run the settings64.bat from the Vivado/<version> directory

On Windows, click Start > All Programs > Xilinx Design Tools > Vivado 2022.2 > Vivado 2022.2 Tcl Shell to launch the Vivado Design Suite Tcl shell.

dir D:\Public\RedPitaya-FPGA
vivado -source red_pitaya_vivado_project_Z10.tcl -tclargs v0.94

We recommend Vivado 2020.1

Vivado 2020.1

Création d'un nouveau projet

Create a new project with Vivado.

Select the device xc7z010clg400-1

Add the constraint redpitaya.xdc .

Create a new Block Design

ERROR: Could not find a top module

solution Create an HDL Wrapper.

source

soource: https://github.com/lvillasen/RedPitaya-Hello-World

Clone the repositiry

Create a new project with Vivado.

Select the device xc7z010clg400-1

Add the constraint redpitaya.xdc .

Create a new Block Design

Add the IP called ZYNQ7 Processing System from the menu and Run Block Automation with default options.

Add Module counter.v from the menu.

clic doit

Add a Binary Counter from thr Add IP menu.

Add a port called led_o with components from 7 down to 0.

connect

From the menu click on Validate Design

In 'Sources' go to 'IP Sources' right-click on 'project1' and select 'Create HDL Wraper'

Proceed to run Synthesis, Implementation and Bitstream Generation

Find the bitstream file (you may use the command 'find . -name *bit')

Transfer the bitstream file (*.bit) to the Red Pitaya (you may use *sftp root@rp-ip and put *.bit)

clic doit

Tcl Console

cd d:/Public/RedPitaya-FPGA/prj/Examples/Led_blink
source D:/Public/RedPitaya-FPGA/prj/Examples/Led_blink/make_project.tcl


pour éviter cette erreur copier le dossier core dans ../tmp/

cores.zip

Bitstream

le Bitstream ce trouve dans le dossier /.../RedPitaya/fpga/<project...>/<project...>.runs/impl_1

le fichier bitstream doit être remplacer le fichier /dev/xdevcfg

rp-ip 140.93.64.197

Transfer the bitstream file (*.bit) to the Red Pitaya (you may use *sftp root@rp-ip and put *.bit)

Connect to the RedPitaya (ssh root@rp-ip)

Program the FPGA with the command cat file_name.bit > /dev/xdevcfg

Console TCL

utilisation des exemples

https://github.com/RedPitaya/RedPitaya-FPGA

utiliser les commandes suivante dans vivado console TCL

cd /tools/redpitaya/RedPitaya-FPGA-master/prj/Examples
source make_project.tcl

cela va ouvrir le projet complet de Led_Blink

GPIO


connecteur E1
exp_n_tri_io
exp_p_tri_io

exp_n_tri_io[1.1] correspond a DIO1_N


exemple de slice pour extraire du vecteur exp_p_tri_io[7.0] le scalaire exp_p_tri_io[3.3] qui correspond au GPIO DIO3_P du connecteur E1
Slice pour démultiplexer le vecteur
Concat pour multiplexer

FIFO


IP FIFO generator
IN

OUT

tuto Web

https://github.com/lvillasen/RedPitaya-Hello-World

https://redpitaya.readthedocs.io/en/latest/developerGuide/software/build/fpga/fpga.html

https://antonpotocnik.com/?p=487360

https://easytp.cnam.fr/alexandre/index_fichiers/support/zynq_cours_tp_vivado_zc702.pdf

http://jmfriedt.free.fr/redpitaya.pdf

http://staff.ltam.lu/feljc/electronics/redpitaya/RedPitayaScriptingSummary_1.pdf

RAM

https://community.element14.com/technologies/fpga-group/b/blog/posts/learning-xilinx-zynq-use-ram-design-for-altera-cyclone-on-vivado-and-pynq

https://elinux.org/Connect_a_ARM_Microcontroller_to_a_FPGA_using_its_Extended_Memory_Interface_%28EMI%29

Updated by Frédéric Blanc over 1 year ago · 61 revisions