--- /dev/null
+#!/bin/sh
+
+BOARD_DIR="$(dirname $0)"
+GENIMAGE_CFG="${BOARD_DIR}/genimage.cfg"
+GENIMAGE_TMP="${BUILD_DIR}/genimage.tmp"
+OUTPUT_DIR="${O}/images"
+
+rm -rf "${GENIMAGE_TMP}"
+
+cp board/digilent/zybo/uEnv.txt ${BINARIES_DIR}
+cp board/digilent/zybo/system.bit ${BINARIES_DIR}
+
+genimage \
+ --rootpath "${TARGET_DIR}" \
+ --tmppath "${GENIMAGE_TMP}" \
+ --inputpath "${BINARIES_DIR}" \
+ --outputpath "${BINARIES_DIR}" \
+ --config "${GENIMAGE_CFG}"
--- /dev/null
+Digilent Zybo
+=============
+
+This is the Buildroot board support for the Digilent Zybo. The Zybo is
+a development board based on the Xilinx Zynq-7000 based All-Programmable
+System-On-Chip.
+
+Zybo information including schematics, reference designs, and manuals are
+available from http://store.digilentinc.com/zybo-zynq-7000-arm-fpga-soc-trainer-board/ .
+
+If you want a custom FPGA bitstream to be loaded by U-Boot, copy it as
+system.bit in board/digilent/zybo/.
+
+Steps to create a working system for Zybo:
+
+1) make zynq_zybo_defconfig
+2) make
+3) write your SD Card with the sdcard.img file using dd by doing
+ $ sudo dd if=output/images/sdcard.img of=/dev/sdX
+4) insert the SD Card and power up your Zybo
+5) Expect serial console on the second USB serial port exposed by the board
+
+The expected output:
+
+ U-Boot SPL 2016.05 (May 20 2016 - 16:16:24)
+ mmc boot
+ Trying to boot from MMC1
+ reading system.dtb
+ spl_load_image_fat_os: error reading image system.dtb, err - -1
+ reading u-boot-dtb.img
+ reading u-boot-dtb.img
+
+
+ U-Boot 2016.05 (May 20 2016 - 16:16:24 +0200)
+
+ Model: Zynq ZYBO Development Board
+ Board: Xilinx Zynq
+ I2C: ready
+ DRAM: ECC disabled 512 MiB
+ MMC: sdhci@e0100000: 0
+ SF: Detected S25FL128S_64K with page size 256 Bytes, erase size 64 KiB, total 16 MiB
+ In: serial@e0001000
+ Out: serial@e0001000
+ Err: serial@e0001000
+ Model: Zynq ZYBO Development Board
+ Board: Xilinx Zynq
+ Net: ZYNQ GEM: e000b000, phyaddr 0, interface rgmii-id
+ I2C EEPROM MAC address read failed
+
+ Warning: ethernet@e000b000 (eth0) using random MAC address - 56:64:dd:a7:6d:94
+ eth0: ethernet@e000b000
+ ...
+
+Resulting system
+----------------
+Once the build process is finished you will have an image called "sdcard.img"
+in the output/images/ directory.
+
+The first partition is a FAT32 partition created at the beginning of the SD Card
+that contains the following files :
+ /BOOT.BIN
+ /zynq-zybo.dtb
+ /uEnv.txt
+ /system.bit
+ /uImage
+ /u-boot-dtb.img
+
+The second partition is an ext4 partition that contains the root filesystem.
+
+You can alter the booting procedure by modifying the uEnv.txt file
+in first partition of the SD card. It is a plain text file in format
+<key>=<value> one per line:
+
+kernel_image=myimage
+modeboot=myboot
+myboot=...
--- /dev/null
+BR2_arm=y
+BR2_cortex_a9=y
+BR2_ARM_ENABLE_NEON=y
+BR2_ARM_ENABLE_VFP=y
+BR2_PACKAGE_HOST_LINUX_HEADERS_CUSTOM_4_6=y
+BR2_TARGET_GENERIC_GETTY_PORT="ttyPS0"
+BR2_ROOTFS_POST_IMAGE_SCRIPT="board/digilent/zybo/post-image.sh"
+BR2_LINUX_KERNEL=y
+BR2_LINUX_KERNEL_CUSTOM_VERSION=y
+BR2_LINUX_KERNEL_CUSTOM_VERSION_VALUE="4.6.4"
+BR2_LINUX_KERNEL_DEFCONFIG="multi_v7"
+BR2_LINUX_KERNEL_UIMAGE=y
+BR2_LINUX_KERNEL_UIMAGE_LOADADDR="0x8000"
+BR2_LINUX_KERNEL_DTS_SUPPORT=y
+BR2_LINUX_KERNEL_INTREE_DTS_NAME="zynq-zybo"
+BR2_TARGET_ROOTFS_EXT2=y
+BR2_TARGET_ROOTFS_EXT2_4=y
+BR2_TARGET_UBOOT=y
+BR2_TARGET_UBOOT_BUILD_SYSTEM_KCONFIG=y
+BR2_TARGET_UBOOT_CUSTOM_VERSION=y
+BR2_TARGET_UBOOT_CUSTOM_VERSION_VALUE="2016.05"
+BR2_TARGET_UBOOT_BOARD_DEFCONFIG="zynq_zybo"
+BR2_TARGET_UBOOT_NEEDS_DTC=y
+BR2_TARGET_UBOOT_FORMAT_DTB_IMG=y
+BR2_TARGET_UBOOT_SPL=y
+BR2_TARGET_UBOOT_ZYNQ_IMAGE=y
+BR2_PACKAGE_HOST_DOSFSTOOLS=y
+BR2_PACKAGE_HOST_GENIMAGE=y
+BR2_PACKAGE_HOST_MTOOLS=y
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