Jetson Nano
Prerequisites
You will need
talosctl
- an SD card/USB drive
- crane CLI
Download the latest talosctl
.
curl -Lo /usr/local/bin/talosctl https://github.com/siderolabs/talos/releases/download/v1.4.8/talosctl-$(uname -s | tr "[:upper:]" "[:lower:]")-amd64
chmod +x /usr/local/bin/talosctl
Flashing the firmware to on-board SPI flash
Flashing the firmware only needs to be done once.
We will use the R32.7.2 release for the Jetson Nano.
Most of the instructions is similar to this doc except that we’d be using a upstream version of u-boot
with patches from NVIDIA u-boot so that USB boot also works.
Before flashing we need the following:
- A USB-A to micro USB cable
- A jumper wire to enable recovery mode
- A HDMI monitor to view the logs if the USB serial adapter is not available
- A USB to Serial adapter with 3.3V TTL (optional)
- A 5V DC barrel jack
If you’re planning to use the serial console follow the documentation here
First start by downloading the Jetson Nano L4T release.
curl -SLO https://developer.nvidia.com/embedded/l4t/r32_release_v7.1/t210/jetson-210_linux_r32.7.2_aarch64.tbz2
Next we will extract the L4T release and replace the u-boot
binary with the patched version.
tar xf jetson-210_linux_r32.6.1_aarch64.tbz2
cd Linux_for_Tegra
crane --platform=linux/arm64 export ghcr.io/siderolabs/u-boot:v1.3.0-alpha.0-25-g0ac7773 - | tar xf - --strip-components=1 -C bootloader/t210ref/p3450-0000/ jetson_nano/u-boot.bin
Next we will flash the firmware to the Jetson Nano SPI flash. In order to do that we need to put the Jetson Nano into Force Recovery Mode (FRC). We will use the instructions from here
- Ensure that the Jetson Nano is powered off. There is no need for the SD card/USB storage/network cable to be connected
- Connect the micro USB cable to the micro USB port on the Jetson Nano, don’t plug the other end to the PC yet
- Enable Force Recovery Mode (FRC) by placing a jumper across the FRC pins on the Jetson Nano
- For board revision A02, these are pins
3
and4
of headerJ40
- For board revision B01, these are pins
9
and10
of headerJ50
- For board revision A02, these are pins
- Place another jumper across
J48
to enable power from the DC jack and connect the Jetson Nano to the DC jackJ25
- Now connect the other end of the micro USB cable to the PC and remove the jumper wire from the FRC pins
Now the Jetson Nano is in Force Recovery Mode (FRC) and can be confirmed by running the following command
lsusb | grep -i "nvidia"
Now we can move on the flashing the firmware.
sudo ./flash p3448-0000-max-spi external
This will flash the firmware to the Jetson Nano SPI flash and you’ll see a lot of output. If you’ve connected the serial console you’ll also see the progress there. Once the flashing is done you can disconnect the USB cable and power off the Jetson Nano.
Download the Image
Download the image and decompress it:
curl -LO https://github.com/siderolabs/talos/releases/download/v1.4.8/metal-jetson_nano-arm64.img.xz
xz -d metal-jetson_nano-arm64.img.xz
Writing the Image
Now dd
the image to your SD card/USB storage:
sudo dd if=metal-jetson_nano-arm64.img of=/dev/mmcblk0 conv=fsync bs=4M status=progress
| Replace /dev/mmcblk0
with the name of your SD card/USB storage.
Bootstrapping the Node
Insert the SD card/USB storage to your board, turn it on and wait for the console to show you the instructions for bootstrapping the node. Following the instructions in the console output to connect to the interactive installer:
talosctl apply-config --insecure --mode=interactive --nodes <node IP or DNS name>
Once the interactive installation is applied, the cluster will form and you can then use kubectl
.
Retrieve the kubeconfig
Retrieve the admin kubeconfig
by running:
talosctl kubeconfig