As most of you know, with most video cards you can apply a simple series of tricks to boost the overall performance a little. Typically you can tweak on core clock frequencies and voltages.
What do we need? One of the best tools for overclocking Nvidia and AMD videocards is our own AfterBurner which will work with 90% of the graphics cards out there. We can really recommend it, download here. We used Precision for now though as AB still needed some work at the time of writing this article.
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 would 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: 1046 MHz
Core Clock: 1137 MHz
Core Clock: 1247MHz
Boost Clock: 1085 MHz
Boost Clock: 1189 MHz
Boost Clock: 1280~1306 MHz
Memory Clock: 7010 MHz
Memory Clock: 7010 MHz
We will have an entire article dedicated to overclocking, but just to get the tastebuds going here's an example.
Power Target 110%
CPU clock +75 MHz
Mem clock +275 MHz
Voltage Memory +12 Mv
With this overclock we have extra performance at our hands, as the boost clock will now render at roughly 1300 MHz depending on the power and temperature signature. The GPU will continuously be dynamically altered on voltage and clock frequency to match the power and temperature targets versus the increased core clock. 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% maybe 10% performance out of those graphics card. The overclock doesn't have too much effect as the board power limitations will prevent a lot of stuff from happening.
Gigabyte GeForce GTX 1080 G1 GAMING review Gigabyte released their GeForce GTX 1080 G1 GAMING edition graphics card. This bad boy is what many of you have been waiting for, all custom, all tweaked and cooled much better opposed to the founder...
Gigabyte X170 Extreme ECC and Intel Xeon E3-1230 v5 We review the Gigabyte X170 Extreme ECC motherboard, an Xeon compatible Intel chipset based product that is loaded with kit, ECC memory support (if you use a Xeon) and features. Though the chipset and...
Gigabyte GeForce GTX 950 Xtreme Gaming review We review the Gigabyte GeForce GTX 950 Xtreme Gaming OC edition. The GTX 950 is an entry-level to mainstream graphics card in the Maxwell range of GPUs from Nvidia that sits pretty nicely in the 1080...