Unfortunately I was resricted and only had time to overclock the R9-280X.
Overclocking The Graphics Card
As most of you know, with most video cards you can apply a simple series of tricks to boost the overall performance a little. You can do this at two levels, namely tweaking by enabling registry or BIOS hacks, or very simply to tamper with Image Quality. And then there is overclocking, which will give you the best possible results by far.
What do we need? One of the best tools for overclocking NVIDIA and ATI videocards is our own AfterBurner which will work with 90% of the graphics cards out there. We can really recommend it, download here.
Where should we go? Overclocking: By increasing the frequency of the videocard's memory and GPU, we can make the videocard increase its calculation clock cycles per second. It sounds hard, but it really can be done in less than a few minutes. I always tend to recommend to novice users and beginners, to not increase the frequency any higher than 5% on the core and memory clock. Example: If your card runs at 600 MHz (which is pretty common these days) then I suggest that you don't increase the frequency any higher than 30 to 50 MHz.
More advanced users push the frequency often way higher. Usually when your 3D graphics start to show artifacts such as white dots ("snow"), you should back down 10-15 MHz and leave it at that. Usually when you are overclocking too hard, it'll start to show artifacts, empty polygons or it will even freeze. Carefully find that limit and then back down at least 20 MHz from the moment you notice an artifact. Look carefully and observe well. I really wouldn't know why you need to overclock today's tested card anyway, but we'll still show it.
All in all... do it at your own risk.
Core Clock: 1000 MHz
Core Clock:1070 MHz
Core Clock: 1175MHz
Memory Clock: 5600 MHz
Memory Clock: 6400 MHz
Memory Clock: 7200 MHz
Now then, overclocking did get more complicated as increasing the Boost functionality has an effect on voltage and thus power consumption which effects the maximum allowed board power and so on. So really it is a matter of trial and error and finding your preferred or maximum balance in terms of extra performance versus noise levels.
We found a small tweak that will bring your boost frequency towards almost 1150 MHz stable, it will fluctuate depending on power draw / limits. Feel free to try our settings yourself. We applied:
Power Target 120%
Priority set to temperature
GPU clock 1175 MHz
Memory clock +1800 MHz
Voltage 1250 mV
Fan control RPM @ default
With the physical board power limit you are going see all card roughly ending at this overclock and boost frequency. We now have a hint extra performance at our hands on top of the factory overclock, have a peek at the results when overclocked.
For all overclocked games above we have used the very same image quality settings as shown before. Overall we have been able to get another 5~10% performance out of those graphics card.
ASUS Radeon R9 390X STRIX 8G review We review the ASUS Radeon R9 390X STRIX. The card's equipped with that renamed Hawaii GPU, now called Grenada. Thanks to a huge triple slot air cooler based on the new DirectCU III design the product...
ASUS Radeon R9 Fury STRIX review We review the ASUS Radeon R9 Fury STRIX, this cut-down version of the Fiji XT GPU comes with the new ASUS DirectCU III air-cooler. Armed with 4GB HBM memory we'll have a look as to how the product ...
ASUS Radeon R9 380 STRIX review In this review we look at the new ASUS Radeon R9 380 STRIX. Armed with a silent cooler this Tonga GPU based product bring you mainstream gaming at a price of roughly 200 USD - With 2GB of grap...
ASUS Radeon R7-370 STRIX Review We review the AMD Radeon R7-370 series. That means 1080P gaming will become in reach at an affordable 149 USD price level. Based on older architecture this product now is reinjected as the 370 series...