One of the biggest problems with computers, dating to the invention of the first one, has been finding ways to keep them cool so that they don't overheat or shut down.
Instead of combating the heat, two University of Nebraska-Lincoln engineers have embraced it as an alternative energy source that would allow computing at ultra-high temperatures.
Sidy Ndao, assistant professor of mechanical and materials engineering, said his research group's development of a nano-thermal-mechanical device, or thermal diode, came after flipping around the question of how to better cool computers.
"If you think about it, whatever you do with electricity you should (also) be able to do with heat, because they are similar in many ways," Ndao said. "In principle, they are both energy carriers. If you could control heat, you could use it to do computing and avoid the problem of overheating."
They documented their device working in temperatures up to 630 degrees Fahrenheit (332 Celsius).
(Score: 2) by kaszz on Friday April 21 2017, @03:42AM (2 children)
If however the semiconductor device can tolerate more heat. Less efficient heat dissipation can be allowed.
That would allow 100 GHz processors to come out eventually given what is in the laboratories (heat is what kills them now).
(Score: 2) by ledow on Friday April 21 2017, @06:57AM (1 child)
If heat was all that killed them, we could just put more cooling on. We can cool things down to liquid nitrogen temperatures really easily, especially in things like specialist supercomputers where expense, power consumption, heat generation, size of equipment etc. play second-fiddle to raw performance.
Fact is that even huge supercomputers with liquid cooling can't go much beyond 8-9GHz.
The reason is much more to do with: You can't make the processor larger, because signals can't propagate across it in time (literally a limitation of the speed of light movement of electrons) without special handling. If you put in that special handling, it slows everything down and turns much more into a kind of multi-core system where you have to ensure that one part is separate from another and waits for its signals. And power consumption scales cubicly with the frequency of the processor.
(Score: 2) by kaszz on Friday April 21 2017, @07:18AM
What prevents the processors from going beyond 8-9 GHz then? what kind of processors works at this speed btw?
Seems the path forward is to have something can switch signals using less power and higher efficiency.
Limits of physics is a b-tch ;-)