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9675f6150c
Update the zynq readme.txt to add documentation for the zc702 and correct documentation that was no longer up to date. Signed-off-by: Neal Frager <neal.frager@amd.com> Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
88 lines
3.3 KiB
Plaintext
88 lines
3.3 KiB
Plaintext
This is the Buildroot support for Zynq boards. Zynq boards are available from
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Xilinx and some third party vendors, but the build procedure is very similar.
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Currently, four boards are natively supported by Buildroot:
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- Xilinx ZC702 board (zynq_zc702_defconfig)
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- Xilinx ZC706 board (zynq_zc706_defconfig)
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- Avnet ZedBoard (zynq_zed_defconfig)
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- Avnet MicroZed (zynq_microzed_defconfig)
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Steps to create a working system for a Zynq board:
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1) Configuration (do one of the following)
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make zynq_zc702_defconfig (ZC702)
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make zynq_zc706_defconfig (ZC706)
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make zynq_zed_defconfig (Zedboard)
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make zynq_microzed_defconfig (MicroZed)
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2) make
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3) All needed files will be available in the output/images directory.
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The sdcard.img file is a complete bootable image ready to be written
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on the boot medium. To install it, simply copy the image to an SD
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card:
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# dd if=output/images/sdcard.img of=/dev/sdX
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Where 'sdX' is the device node of the uSD.
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4) boot your board
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You can alter the booting procedure by creating a file uEnv.txt
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in the root of the SD card. It is a plain text file in format
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<key>=<value> one per line:
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kernel_image=myimage
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modeboot=myboot
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myboot=...
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References:
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- ZC702 information including schematics, reference designs, and manuals are
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available from
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https://www.xilinx.com/products/boards-and-kits/ek-z7-zc702-g.html
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- ZC706 information including schematics, reference designs, and manuals are
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available from
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http://www.xilinx.com/products/boards-and-kits/ek-z7-zc706-g.html.
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- Zedboard/Microzed information including schematics, reference designs, and
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manuals are available from http://www.zedboard.org .
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Support for other boards:
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If you want to build a system for other boards based on the same SoC
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(for ex. Digilent Zybo board), and the board is already supported by
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the upstream kernel and U-Boot, you simply need to change the
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following Buildroot options:
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- Kernel Device Tree file name (BR2_LINUX_KERNEL_INTREE_DTS_NAME)
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- U-Boot (BR2_TARGET_UBOOT_CUSTOM_MAKEOPTS="DEVICE_TREE=<dts file name>")
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Custom ps7_init_gpl.c/h support:
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To generate a working boot.bin image, ps7_init_gpl.c/h are required in
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the U-Boot source tree. Without those files, boot.bin will be built
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successfully but it will not be functional at all. Those files are
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output from the Xilinx tools, but for convenience, U-Boot includes the
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default ps7_init_gpl.c/h of popular boards. Those files may need to be
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updated for any programmable logic customizations which impact
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ps7_init (clock/pin setup & mapping/AXI bridge setup/etc). See
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board/xilinx/zynq/ directory of U-Boot for natively supported ps7_init
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files. If the ps7_init files for your board are not found in U-Boot,
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you need to add them by yourself.
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1) Start with a defconfig supported by Buildroot (e.g. Zedboard)
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make zynq_zed_defconfig
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2) make uboot-menuconfig
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Visit the following menu and enable CONFIG_ZYNQ_CUSTOM_INIT.
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ARM architecture --->
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[*] Use custom ps7_init provided by Xilinx tool
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3) Copy ps7_init_gpl.c/h generated by the Xilinx tools into
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output/build/uboot-xilinx-<pkg version>/board/xilinx/zynq/custom_hw_platform/
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4) make
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Note: The files in step 3 will need to be re-copied after cleaning the
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output directory and at this time, there is no way to save them as
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part of the buildroot configuration, except as a U-Boot patch.
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