Why there hasn't been a significally faster CPU in the last decade?
Why there hasn't been a significally faster CPU in the last decade?
David Rivera
Daniel Hughes
It's called Ryzen.
David Sanders
We have hit the limits of silicon
The only way we can get better CPUs is make physically bigger chips and try to optimize
Jacob Richardson
>In the last decade
What's it like to be so young not to remember being able to hit walls with a Q6600 on release?
Nathaniel Perry
>7700k speed for $500
So nothing.
Isaac Myers
>Being this retard
Jackson Ward
Wrong. Bigger chip = longer distance = more lightspeed delay = slower max clock. Future is even smaller chips, many of them, with decentralized parallel performance.
Nolan Fisher
Machine learning vs brute force
Moore's Law
Jaxon Thompson
But there was.
Intel Core i7 6700K, also known as Skylake, was the best processor to be released within the last 10 years.
Rankings:
1. 6700K
2. 2700K
3. 2500K
4. 4790K
5. 5820K
Carson Morgan
You think it's physically and scientific possible to create a cpu die made of superconductor material that can work property at room temperature and cpu die thickness is only 20 nanometres you think we can stack them in layers
Will that have effect on clock speed, latency, etc?
Isaiah Hernandez
>The newest product is the best compared to the older products
Nolan Jackson
Quantum tunneling is making it more and more difficult to have smaller chips
Luke Gonzalez
Take 3 drinks, everyone.
Liam Ward
What makes skylake so much better than haswell?
Adam Kelly
MUH FPS IN GAYMEN
Robert Cox
Nice logarithmic scale
Thomas Garcia
Monopoly stagnation
Matthew Phillips
Here's another chart.
Notice the i7 in 2010? Consumer stagnation happened.
Ayden Foster
But they did get faster.
>multiple (logical) cores
>better cache efficiency
Jayden Wilson
They can be stacked more to increase size AND reduce delay.
They are stacked more than they were before, but less so when it comes to the actual cores and cache.
David Garcia
What makes semiconductors so great isn't that they have a high conductivity (like superconductors) but that their conductivity (and the type of charge carriers) can be varied greatly by small changes in their composition. That's why its possible to make such complex devices on a small scale. A superconductor could be an interconnect, but it can't replicate the gating effect of a MOS junction.