Seems like multi-core scores are all over the map (probably depending on the cooling of the laptop), but not really impressive when comparing to a passively cooled CPU. Single-core scores are meh compared to the M2.
Given that I didn't stop anything and was playing Dota 2 while running it ...
Still, I believe at some point once newer iterations of X86-64 drop support for legacy instructions (they still have to support code running on 8080/8086 through 486) - we will have smaller, more efficient X86-64 chips.
Actually, it is darn impressive that the latest Intel/AMD chips keep up with the brand new M1/M2 chips that have zero legacy instructions and the Intel/AMD chips carry 50 years of legacy :)
4% is probably close to noise level, so essentially you are a couple of percentage points faster on multicore with TWICE the total power envelope. Think about that.
And almost 1/5th slower in single core.
Also, you went from "It will OBLITERATE M2" to moving the goal post "not that bad" pretty quickly. I love it.
> once newer iterations of X86-64 drop support for legacy instructions (...) - we will have smaller, more efficient X86-64 chips.
Don't get too excited about it. The old compatibility is going to be tiny in the die space compared to even basic Intel extensions. And it's not just the old code - new code may well contain a "mov al..." so you can't just drop it. All of those instructions will stay with us for decades.
Also doesn't really obliterate the M2:
https://browser.geekbench.com/macs/macbook-air-2022
Seems like multi-core scores are all over the map (probably depending on the cooling of the laptop), but not really impressive when comparing to a passively cooled CPU. Single-core scores are meh compared to the M2.