All operating system developed by Google to date has one thing in common: they’re based on the Linux kernel. Chrome OS, Android, Chromecasts, you name it. Linux has powered Google hardware for years.
However, the Linux kernel is not ideal for every situation. Especially in the case of embedded devices like car dashboards or GPS units, full-blown desktop kernels like Linux impact performance and cause other issues. There’s a massive ecosystem of operating systems designed for embedded hardware, and Google may be working on their own.
Enter “Fuchsia.” Google’s own description for it on the project’s GitHub page is simply, “Pink + Purple == Fuchsia (a new Operating System)”. Not very revealing, is it? When you begin to dig deeper into Fuchsia’s documentation, everything starts to make a little more sense.
First, there’s the Magenta kernel based on the ‘LittleKernel’ project. Just like with Linux and Android, the Magenta kernel powers the larger Fuchsia operating system. Magenta is being designed as a competitor to commercial embedded OSes, such as FreeRTOS or ThreadX.
However, Magenta is designed to scale much better, enabling Magenta to work on embedded devices, smartphones, and desktop computers. For this to happen, Magenta improves upon its LittleKernel base by adding first class user-mode support (a necessity for user accounts) and a capability-based security model (which would enable something like Android 6.0’s permissions to work).
But that’s just the kernel; what about the rest of the OS? It looks like Google is using Flutter for the user interface, as well as Dart as the primary programming language. The icing on the cake is Escher, a renderer that supports light diffusion, soft shadows, and other visual effects, with OpenGL or Vulkan under the hood. Shadows and subtle color reflections are a key component of Material Design, so it seems Flutter and Escher could be designed for the Material Design UI in mind.