Featured Articles

IHS teardown reveals Galaxy S5 BOM

IHS teardown reveals Galaxy S5 BOM

Research firm IHS got hold of Samsung’s new flagship smartphone and took it apart to the last bolt to figure out…

More...
Galaxy S5, HTC One M8 available selling well

Galaxy S5, HTC One M8 available selling well

Samsung’s Galaxy S5 has finally gone on sale and it can be yours for €699, which is quite a lot of…

More...
Intel lists Haswell refresh parts

Intel lists Haswell refresh parts

Intel has added a load of Haswell refresh parts to its official price list and there really aren’t any surprises to…

More...
Respawn confirms Titanfall DLC for May

Respawn confirms Titanfall DLC for May

During his appearance at PAX East panel and confirmed on Twitter, Titanfall developer Respawn confirmed that the first DLC pack for…

More...
KFA2 GTX 780 Ti Hall Of Fame reviewed

KFA2 GTX 780 Ti Hall Of Fame reviewed

KFA2 gained a lot of overclocking experience with the GTX 780 Hall of Fame (HOF), which we had a chance to…

More...
Frontpage Slideshow | Copyright © 2006-2010 orks, a business unit of Nuevvo Webware Ltd.
Wednesday, 30 January 2013 10:30

Richland clocks leaked

Written by Peter Scott



Flagship hits 4.4GHz on turbo


Richland specs have been leaking for weeks and now it seems we finally have the final piece of the puzzle, clock speeds.

According to VR-Zone China, the flagship A10-6800K will be clocked at 4.1/4.4GHz, while its HD 8670D GPU ends up clocked at 844MHz. The A10-6700 is clocked at 3.7/4.3GHz and it has the identical GPU clock. For comparison, the current generation Trinity-based A10-5800K is stock clocked at 3.8GHz.

The A8-6600K and A8-A6500 are clocked at 3.9/4.2GHz and 3.5/4.1GHz respectively. Moving along to dual-cores, the A6-6400K runs at 3.9/4.1GHz, with HD 8470D graphics clocked at 800MHz. The A4-6300 ends up clocked at 3.7/3.9GHz and its HD 8370D graphics core is clocked at 760MHz.

Basically we are looking at a pretty nice clock bump compared to Trinity chips. What’s more, AMD managed to keep Richland TDPs at comparable levels, in spite of the fact that it relies on the same 32nm process.


blog comments powered by Disqus

To be able to post comments please log-in with Disqus

 

Facebook activity

Latest Commented Articles

Recent Comments