What we’ll need
- A microSD card (4GB minimum, 8GB recommended)
- A computer with a microSD card drive
- A Raspberry Pi 2, 3 or 4
- A micro-USB power cable (USB-C for the Pi 4)
- A Wi-Fi network or an ethernet cable with an internet connection
And optionally:
- A monitor with an HDMI interface
- An HDMI cable for the Pi 2 & 3 and a micro HDMI cable for the Pi 4
- A USB keyboard
Prepare the SD Card
First, insert the microSD card into Raspberry Pi.
Now you need to install the right Raspberry Pi Imager for your operating system. You can do this with the following links:
https://downloads.raspberrypi.org/imager/imager_amd64.deb
https://downloads.raspberrypi.org/imager/imager.exe
https://downloads.raspberrypi.org/imager/imager.dmg
Once this is done, start the Imager and open the “CHOOSE OS” menu.
Scroll down the menu click “Ubuntu”.
You will then be able to see a list of Ubuntu downloads to choose from. For this tutorial we recommend you select the Ubuntu 20.04 download. As indicated in the imager this will work for the Raspberry Pi 2,3, 3+ and any of the 4’s.
Select the image and open the “SD Card” menu. Select the microSD card you have inserted.
Finally, click “WRITE” and wait for the magic to happen… (This magic might take a few minutes)
Wi-Fi or Ethernet
There are two ways to get your Pi connected to the internet:
- The first is to connect your Pi to your router with an ethernet cable. In this case, you can skip this step and go to the next one in the tutorial.
- The second requires a local Wi-Fi network that both your computer and Pi can be connected to. We are going to edit files you just downloaded on your SD card to ensure your Pi can connect to the Wi-Fi network at boot.
Getting setup with Wi-Fi
With the SD card still inserted in your laptop, open a file manager and locate the “system-boot” partition on the card. It contains initial configuration files that will be loaded during the first boot.
Note: Screenshots have been made on an Ubuntu desktop but it can be done on Windows and MacOS too
Edit the network-config file to add your Wi-Fi credentials. An example is already included in the file, you can simply adapt it.
To do so, uncomment (remove the “#” at the beginning) and edit the following lines:
wifis:
wlan0:
dhcp4: true
optional: true
access-points:
<wifi network name>:
password: “<wifi password>”
For example:
wifis:
wlan0:
dhcp4: true
optional: true
access-points:
“home network”:
password: “123456789”
Note: network name must be enclosed in quotation marks.
Save the file and extract the card from your laptop.
Note: During the first boot, your Raspberry Pi will try to connect to this network. It will fail the first time around. Simply reboot sudo reboot and it will work.
Boot Ubuntu Server
If you are using an HDMI screen and a USB keyboard, ensure they are plugged in before powering the Pi. You will be able to see the boot process on screen and log in using “ubuntu” as both the password and login ID.
If you are running your device headless, you need to connect to it remotely from your laptop. We are going to do so using the SSH protocol.
Insert the SD card into the Pi and power it up (plug in your power supply). After a minute or so, Ubuntu on your Raspberry Pi will have fully booted and connected to the network.
Connect remotely to your Raspberry Pi
To connect to your Raspberry Pi remotely, you need two things (we’ll help you find them):
- Its IP address on the local network
- An SSH client (SSH is a communication protocol between machines)
Determining the Pi’s IP address
To determine the IP address of your board, open a terminal and run the arp command:
On Ubuntu and Mac OS:
arp -na | grep -i “b8:27:eb”
If this doesn’t work and you are using the latest Raspberry Pi 4, instead run:
arp -na | grep -i “dc:a6:32”
Information
Depending on your version of Ubuntu, you may need to install the net-tools package. Install it with sudo apt install net-tools and try the arp command again.
On Windows:
arp -a | findstr b8-27-eb
If this doesn’t work and you are using the latest Raspberry Pi 4, instead run:
arp -a | findstr dc-a6-32
This will return an output similar to:
? (xx.xx.xx.x) at b8:27:eb:yy:yy:yy [ether] on wlp2s0
Where the x’s are the IP address of any Raspberry Pi connected to the local network. Note it down.
If the command doesn’t return an IP address, you may need to wait a little longer for your Pi to join the network. If you still can’t see it after a few tries, which can happen with some home or office network configurations, we recommend you use a USB keyboard and HDMI screen to interact with your device.
Using an SSH client
On Ubuntu and Mac OS, an SSH client is already installed. Some versions of Windows 10 also include an SSH client too, but if yours does not or you’re unsure, follow these steps to install one.
Open a terminal and run the following command:
ssh ubuntu@<Raspberry Pi’s IP address>
You will be asked to confirm the connection:
Are you sure you want to continue connecting (yes/no/[fingerprint])?
Type “yes” to confirm.
Changing the password
When prompted, use “ubuntu” for the password. (The cursor won’t move when you type the password.) The first thing Ubuntu will do is to ask you to change it to a secure password. Once done, you can reconnect again with the SSH command and the new password.
Success! You are now connected to Ubuntu Server running on your Raspberry Pi.
Install a desktop
First you need to ensure your packages are updated to the latest version, run:
sudo apt update
sudo apt upgrade
Then, you can use the apt install command to install a desktop environment.
Here are some popular and lightweight options:
sudo apt install xubuntu-desktop
sudo apt install lubuntu-desktop
If you run into issues with either of these check out this blog. We’re working on fixing this imminently.
Learn more about Ubuntu flavours.
Once the install finishes, reboot your pi with:
sudo reboot
And your new desktop will come up automatically
My name is Rayhan and I’m an IT professional with over 10 years of experience in the field. I’m passionate about all things tech, and I love helping people solve their IT problems. In my free time, I enjoy tinkering with new gadgets and software, and I’m always on the lookout for the latest tech trends. I believe that technology has the power to make our lives easier and more enjoyable, and I’m excited to be a part of this ever-evolving field. Thank you for taking the time to visit my page.
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