However, detailed instructions are provided in the OpenRGB Readme and requires patching the kernel to include modules that provide i2c driver for several chipsets. I do not have any RGB via SMBus, so I did not need any configuration. To make it accessible to the normal user, I copied the les file provided in the OpenRGB source code to /etc/udev/rules.d and reloaded the udev rules. The root user could now access the Wraith Prism using sudo openrgb. There are two important steps after the installation: providing USB access and SMBus access (for controlling RGB RAM and certain motherboard on-board LEDs). Sudo ln -s /home/saikat/Downloads/apps/openrgb/openrgb-build/openrgb /usr/local/bin/openrgb # clone from git this should create a directory called 'OpenRGB' Installing Qt5 from the Ubuntu package manager is easy: Installing OpenRGB also requires Qt5 - a framework for cross-platform software development. Configuring OpenRGB from source requires the following dependencies: sudo apt install build-essential libusb-1.0-0-dev libhidapi-dev pkgconf I used the USB connector for the RGB fan, because the RGB header on MSI MAG B550M Mortar motherboard is not yet supported by OpenRGB. ![]() I used OpenRGB as it will at least have a single application for all RGB devices if I plan to upgrade some components in the future. RGB control application for the Wraith Prism on Linux, Mac OS and Windows, written in Python and allows showing realtime CPU utilization. ![]() Open-source Linux-only RGB control application for the Wraith Prism, written in Kotlin. RGB control application for multiple devices from diverse manufacturers. I found three options to control the RGB colors of Wraith Prism on a Linux platform:
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