New Operating System From Google, Called "Fuchsia"


A team at Google is working on a new operating system called "Fuchsia," according to information that recently turned up on Github, but details are sparse.

Google appears to have started work on a completely new operating system, but no one knows quite what it's for. The project's name is Fuchsia, and it currently exists as a growing pile of code on the search giant's code depository and on GitHub, too. The fledgling OS has a number of interesting features, but so far Google has yet to comment on its intended function. All we really know is that this looks like a fresh start for Google, as the operating system does not use the Linux kernel — a core of basic code that underpins both Android and Chrome OS.

So what is Fuchsia for? There have been a number of suggestions. Some people think it could be used to "unify" Chrome OS and Android into a single operating system (a plan that was first rumored last year, with the new OS said to be scheduled for a 2017 release), while others say it could be used to power hardware like Google's OnHub router or third-party Internet of Things devices.


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).


We know it has support for both 32-bit and 64-bit ARM CPUs, as well as 64-bit PCs. If you have the technical prowess, you can even compile it yourself and run it on a real PC or a virtual machine. Travis Geiselbrecht from Google also confirmed it will soon be available for the Raspberry Pi 3.