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The Framework Laptop 13 is about to become one of the world’s first RISC-V laptops
(www.theverge.com)
This is a most excellent place for technology news and articles.
I'm more familiar with RISC-V than I am with ARM though it's my understanding they're quite similar.
ARM/RISC-V are load-store architectures, meaning they divide instructions between loading/storing and doing computation. x86 on the other hand is a register-memory architecture, having instructions that do both computation as well as loading/storing.
ARM/RISC-V also have weaker guarantees as to memory ordering allowing for less synchronization between cores, however RISC-V has an extension to enforce the same guarantees as x86 and Apple's M-series CPU have a similar extension for ARM. If you want to emulate x86 applications on ARM/RISC-V these kinds of extensions are essential for performance.
ARM/RISC-V instructions are variable width but only in a limited sense. They have "compressed instructions" - 2 bytes instead of 4 - to increase instruction density in order to compete with x86's true variable width instructions. They're fairly close in instruction density, though compressed instructions are annoying for compilers to handle due to instruction alignment. 4 byte instructions must be aligned to 4 bytes, so if you have 3 instructions A, B and C but only B has a compressed version then you can't actually use it because there must be 4 bytes between instructions A and C.
ARM/RISC-V also makes backwards compatibility entirely optional, Apple's M-series don't implement 32-bit mode for instance, whereas x86-64 still has "real mode" for running 16 bit operating systems.
There's also a number of other differences, like the number of registers, page table formats, operating modes, etc, but those are the more fundamental ones I can think of.
The MPSADBW thing likely comes from the hackaday article on why "x86 needs to die". The kinda funny thing about that is MPSADBW is actually a really important instruction for (apparently) video decoding; ARM even has a similar instruction called SABD.
x86 does have a large number of instructions (even more so if you want to count the variants of each), but ARM does not have a small number of instructions and a lot of that instruction complexity stops at the decoder. There's a whole lot more to a CPU than the decoder.