Overclocking
Overclocking results listed in this section are achieved with the default fan, power, and voltage settings as defined in the VGA BIOS. We choose this approach as it is the most realistic scenario for most users.
Every sample overclocks differently, which is why our results here can only serve as a guideline for what you can expect from your card.
The RTX 2080 Ti FTW3 Ultra features EVGA's iCX sensors. These can be monitored using EVGA Precision X1 and provide temperature data on memory chips and VRM circuitry.
Overclocking on Turing is massively complicated by the fact that the power limit is always limiting the clock frequencies. So you can't just dial in a frequency to test and then run any game to test for stability. The issue here is that another game might cause loads that are lighter, which causes higher boost clocks, leading to a crash due to too much overclocking.
With Turing, NVIDIA provides an automated way to scan for the maximum stable overclock through software, which tests each point on the voltage-frequency curve manually. While the end result was stable, performance was a few percent lower than what we had achieved with manual overclocking.
With manual overclocking, maximum overclock of our sample is 2010 MHz on the memory (15% overclock) and +125 MHz to the GPU's base clock, which increases maximum Boost from 1976 MHz to 2115 MHz (7% overclock).
Important: Each GPU (including each GPU of the same make and model) will overclock slightly
differently based on random production variances. This table just serves to provide a list of typical
overclocks for similar cards, determined during TPU review.
Using these clock frequencies, we ran a quick test of Unigine Heaven to evaluate the gains from overclocking.
Actual 3D performance gained from overclocking is 8.8%.
Power Limits
All NVIDIA graphics cards have a power limit defined in the BIOS, which limits power draw by adjusting Boost frequencies accordingly. A second limit exists that defines the maximum TDP adjustment limit for user overclocking; i.e., how far the power slider will go. In the second chart, the (+xx%) value lists the percentage increase from the tested card's default power limit to the highest manual setting available—the slider's adjustment range.