To do that, run the following in your shell:This will bring up a menuconfig screen that looks like this:This command will build the BOOT.BIN file, which you need to copy to the SD card that you use with the ZedBoard. We will then write some code to control the FPGA we built in the previous tutorial.I hope that you were successful in booting your Linux build on your ZedBoard.

In this tutorial, we cover installing PetaLinux on your build machine and making a Linux build for your ZedBoard. Also, copy the file zedboard_linux/images/linux/image.ub, which contains the Linux kernel and filesystem.PetaLinux can use an open source emulator called QEMU to boot your Linux build, which can be useful at this point to verify that the build was successful. Netboot address and u-boot text address may need to be modified when using initramfs and rootfs is too large.
Thank you for your attention. The command is a little odd in that it puts the file in your current directory and also puts a copy in the project images/linux directory.

Then select Exit.

After downloading the PetaLinux tools, run the following command to install them.This will bring up a Linux menuconfig utility. I used “$ petalinux-boot –qemu –kernel” insteadCopy the BOOT.BIN file containing the FSBL, FPGA image, and u-boot to the SD card you will be using on your ZedBoard. In the next tutorial, we will be using SSH to log in to the ZedBoard and copy files over as well as connecting with a debugger.I’m glad the tutorial was helpful.That should complete your PetaLinux installation.This will configure the build to enable the ssh server and the ability to ssh out of the ZedBoard.We want to enable SSH, so we need to run petalinux-config again to configure the root filesystem to include the DropBear SSH server.

But if you haven’t had a successful build I think it will boot with a prebuilt image.This will create a new project directory called zedboard_linux.You should ignore any warnings about no tftp server.Once the PetaLinux tools are installed, you also need to install the board support package. Select Yes to save. Another option is to use the Zynq or Zedboard BSPs on the Downloads page linked above.© 2020. Remember that, in the previous tutorial, we exported our Vivado FPGA to SDK. Continue to exit pages until you exit out of the menuconfig process. For now, just use your arrow keys to select Exit and then press return.Now build the image with the following command:Great tutorial. The ramifications of this need to be explored and notes should be added to this guide.

AlexMy Xilinx tools are installed in /tools/xilinx, so I’m going to install the PetaLinux tools in the same location. Notice of Disclaimer The information disclosed to you hereunder (the "Materials") is provided solely for the selection and use of Xilinx products. Installing PetaLinux. The only caveat to this is that I had no library called ncursese-libs.i686.


$ petalinux-create -t apps -n --template