> Technically, the Am386 could run Windows 95, but it wasn’t a great experience.
Technically not. It can run it. Was slow? Yes, but my Am386DX40 keep working fine from 1991 to 1996. Running DR-DOS 6, MS-DOS 6.11, Windows 3.1 and finally Windows 95. And, of course, I could play DooM 2 on it. At some point, I got a math copro.
Finally, my father upgraded the machine with an AMD 486DX5 133MHz.
Modern Linux can't even scratch a 486 and some Motorola platforms. Or VAX. Heck, I run NetBSD 10.1 vanilla under simh 3.8 for 9front emulated on an amd64 laptop (old Celeron, 2GB). Slow, but enough to play Slashem.
On portability on compilers, plan9/9front it's unbeatable. Do you now Go compiling from any OS to any arch? The same here, but just for an OS obviously. Albeit I can still run Golang under i386, and tools like Rclone under 9front i386.
That's really cool.
That's a very limited view of what portability means.
Driver support for a niche SoC? Good luck getting NetBSD on before Linux. The sheer amount of SoCs supported by the Linux kernel dwarfs anything NetBSD has to offer.
Technically not. It can run it. Was slow? Yes, but my Am386DX40 keep working fine from 1991 to 1996. Running DR-DOS 6, MS-DOS 6.11, Windows 3.1 and finally Windows 95. And, of course, I could play DooM 2 on it. At some point, I got a math copro. Finally, my father upgraded the machine with an AMD 486DX5 133MHz.
Eh... I think the Linux kernel + your choice of libc/userland has it beat these days.
On portability on compilers, plan9/9front it's unbeatable. Do you now Go compiling from any OS to any arch? The same here, but just for an OS obviously. Albeit I can still run Golang under i386, and tools like Rclone under 9front i386. That's really cool.
Driver support for a niche SoC? Good luck getting NetBSD on before Linux. The sheer amount of SoCs supported by the Linux kernel dwarfs anything NetBSD has to offer.