I’m always a bit amazed of how things have progressed and on what Linux can still run.
This is an extreme example, but it’s also possible to run a modern Linux OS on SBCs like a Raspberry Pi Zero, and still have something somewhat usable depending on your needs.
To have a computer half the size of a credit card with more RAM than my full tower rig from 2001 is amazing. And it can even run software from that era with dosbox or wine.
My 15 years old laptop is still supported and can still read 1080p on YouTube, using Linux.
Sort of. There’s realtime builds, but the Linux definition of real time is more relaxed than dedicated RTOS’s in exchange for a much more feature-filled OS. You should not use Linux if people could die when you miss a deadline. You want a simple system where it’s easier to prove that can never happen.
I’m always a bit amazed of how things have progressed and on what Linux can still run.
This is an extreme example, but it’s also possible to run a modern Linux OS on SBCs like a Raspberry Pi Zero, and still have something somewhat usable depending on your needs.
To have a computer half the size of a credit card with more RAM than my full tower rig from 2001 is amazing. And it can even run software from that era with dosbox or wine.
My 15 years old laptop is still supported and can still read 1080p on YouTube, using Linux.
Linux devs just recently decided to drop support for 486 CPUs and some early Pentiums.
There’s just no competition.
Pretty much the only place it doesn’t run is where you have hard real-time requirements and on extremely small embedded micro controllers.
But isn’t there a RTOS Linux kernel?
Sort of. There’s realtime builds, but the Linux definition of real time is more relaxed than dedicated RTOS’s in exchange for a much more feature-filled OS. You should not use Linux if people could die when you miss a deadline. You want a simple system where it’s easier to prove that can never happen.
I believed the kinux kernel recently became real time?