But that’s the thing: is there only one wheel? Maybe wheels are a bad metaphor here, but isn’t it weird, that there aren’t any fundamentally new concepts? Unix was developed basically during the preschool years of computing and we all just kind of stuck with its concepts.
There’s other engine designs (ex:rotary engine) but the 4 stroke has over a century of testing, improvements, and refinements. A new design can adapt some of the refinements, but would have to catch up on decades of innovation and testing just to catch up!
On the Unix side, there’s the evolution of the Posix standard (which was based on Unix).
Depends on the level of abstraction you’re looking at. Operating systems today are vastly more capable of organizing different provesses, distributing work amongst multiple CPU cores, CPU caches, etc.
I guess the von Neumann architecture has just proven really successful in practice. And von Neumann machines require a certain set of capabilities in their OSes.
Maybe look at embedded systems, where we find a bit more variety. Things like DSPs or microcontrollers.
But that’s the thing: is there only one wheel? Maybe wheels are a bad metaphor here, but isn’t it weird, that there aren’t any fundamentally new concepts? Unix was developed basically during the preschool years of computing and we all just kind of stuck with its concepts.
If the underlying concept is good and was well thought out, it’s better to build upon it instead of reinventing it.
Look at the 4 stroke engine (and engines in general) many of the design concepts date back to the 1880s!
There’s other engine designs (ex:rotary engine) but the 4 stroke has over a century of testing, improvements, and refinements. A new design can adapt some of the refinements, but would have to catch up on decades of innovation and testing just to catch up!
On the Unix side, there’s the evolution of the Posix standard (which was based on Unix).
I have thought the same in my adventures into alternative operating systems.
Depends on the level of abstraction you’re looking at. Operating systems today are vastly more capable of organizing different provesses, distributing work amongst multiple CPU cores, CPU caches, etc. I guess the von Neumann architecture has just proven really successful in practice. And von Neumann machines require a certain set of capabilities in their OSes.
Maybe look at embedded systems, where we find a bit more variety. Things like DSPs or microcontrollers.