![]() ![]() # use dphys-swapfile swap for thatĪfter a reboot, the adjustments can be checked with the command # a swapfile is not a swap partition, no line here Tmpfs /var/tmp tmpfs defaults,noatime,nosuid,mode=0755,size=128m 0 0 Tmpfs /var/log tmpfs defaults,noatime,nosuid,mode=0755,size=128m 0 0 Tmpfs /tmp tmpfs defaults,noatime,nosuid,mode=1777,size=256m 0 0 PARTUUID=221d34c4-02 / ext4 defaults,noatime 0 1 PARTUUID=221d34c4-01 /boot vfat defaults, noatime 0 2 To do this, the file /etc/fstab is modified with ![]() To prevent log files from being permanently written to the SD card, temporary directories can be relocated to the working memory. The line then looks like this:Ĭonsole=serial0,115200 console=tty1 root=PARTUUID=221d34c4-02 rootfstype=ext4 fsck.repair=yes rootwait quiet splash plymouth.ignore-serial-consoles noswap The option noswap is added to the end of the line. First, swapping is deactivated with these commands:Īn entry is then made in /boot/cmdline.txt. Next, there are a few configurations to increase the life span of the SD card. After rebooting, you now have an up-to-date Raspberry Pi OS installation. It is recommended to first update the system with the commands Now you can log in (most easily with PuTTY) via SSH on the Raspberry with the configured user. I recommend assigning a fixed IP address to the Raspberry Pi so that it can always be called up with this address later.Īfter the boot process, this picture should appear on the display: It appears in the list of connections under the name that was specified in the setup. The following screenshots show the installation process:Īfter the operating system has been written to the SD card, it can be inserted into the slot of the Raspberry Pi and the power supply connected. After the boot process, you can check via the router whether the Raspberry has started correctly and which IP address it has. With this tool, all important basic settings, such as Wi-Fi access, user account, host name and language settings, can be configured. The installation of the current Raspberry OS (Debian "Bullseye") can be done most easily with the Raspberry Pi Imager. This makes no difference to the functionality of the Squeezebox server. As mentioned above, you can also leave out the display. Then the heat sink is screwed onto the Raspberry Pi and the connection of the fan is plugged into the GPIO strip. Then the display is connected to the Raspberry Pi with the included ribbon cable: ![]() The Raspberry Pi is simply screwed onto the display with 4 screws. Waveshare 5 inch display with DSI interface.official power supply for Raspberry Pi 4 Model B, USB-C, 5.1V, 3A. ![]() The display is not essential, it only serves to show status information. The following picture shows all the components I used for it. Not much hardware is needed to run a Squeezebox server. Since some things have changed and been simplified in the meantime when installing the Logitech Media Server, I would like to provide you with updated instructions for the Raspberry 4B here. That's still way too expensive, but who knows how long it will take for prices to recover. A few days ago, however, I was able to get hold of a Raspberry 4B bundle with a Raspberry 4B (4GB RAM), power supply, SD card and heat sink set for just under 120 euros. In the meantime, however, the situation is such that the Raspberry 3 models are hardly available any more, or only at outrageously high prices. Installing Logitech Media Server on the Raspberry Pi 4B with 5 inch displayĪ few months have passed since I described how to install the Logitech Media Server on a Raspberry Pi 3B. ![]()
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