This consistently reports a hardware failure within 10-15 minutes on my 8700K when running with 12 threads, seemingly regardless of processor settings. An OC which will happily run the latest Prime95 all day long? Failed. Stock? Failed. An anemic 3GHz at a toasty 1.45 volts? Failed. At this...
The Intel 10nm that gets released isn't going to be the same as the original (which is broken, so changes need to be made to fix it), but that doesn't mean that it won't still deserve to be called a 10nm process.
AIB custom cards exist and there's no room in the lineup for a slightly lower-performing version to be introduced later. It's not a Titan, although Nvidia clearly thinks it can get away with pricing it like one.
What I want is for all the case manufacturers to copy Caselabs and have a system that allows you to put fans OR 5.25" bays OR 3.5" bays up front. Then everybody can stop moaning about it.
Your obvious answer is wrong, because they do use Prime95 and Linpack for testing. Binning is time consuming but not actually difficult if you have a bunch of testing rigs set up for that purpose.
Are you setting the cache to the same frequency as the cores? The cache on my 6700K caps out a couple hundred megahertz below the cores.
The stock turbo on the 8700K goes up to 4.7, so all of the cores should be able to manage at least that...
As someone with a hearing loss, I value silence quite a bit. I'm sure the loss helps with that, though. :p
I do live in the country, though, and my house has sound-dampening insulation. I actually can achieve silence, something that I would imagine is much harder for town people.
The problem with that mapping of relative values to absolute values is that it doesn't really match up with GloFo's marketing. If they actually thought they could get production chips past 6 GHz then they would be shouting it to the world because it would be a legitimately amazing achievement...
I actually got better than linear scaling with memory speed on my heavily modded Skyrim install. Too bad my memory can't really go past 3200 MHz, because I'd love to see how far it could scale...
This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register.
By continuing to use this site, you are consenting to our use of cookies.