NVIDIA GeForce GTX TITAN 6GB Performance Review

Author: SKYMTL
Date: February 20, 2013
Product Name: GeForce GTX TITAN
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Kepler’s Overclocking: Overhauled & Over-Volted

One of the major criticisms leveled at the early Kepler cards like the GTX 680 was their bewildering lack of core voltage control. Some board partners eventually added the capability to modify their cards’ voltage values but they were quickly removed in favor of a supposedly “safer” approach to overclocking. Enthusiasts weren’t happy and neither were NVIDIA’s partners since they had to eliminate certain advertised features from their products.

With GK110, voltage control is making a return….to a certain extent, and regrettably it won’t cascade down to lower-end SKUs like the GTX 680. NVIDIA will be allowing voltage changes, but the actual upper limits will remain under strict control and could be eliminated altogether on some products should a board partner decide to err on the side of caution.

On the previous page, we detailed how GK110’s Boost Clock is largely determined by a complex calculation which takes into account temperatures, clock speeds, fan speeds, Power Target and core voltage. As temperatures hit a given point, Boost 2.0 will adapt performance and voltage in an effort to remain at a constant thermal point. This methodology remains in place when using GK110’s expanded overclocking suite. However, in this case, the application of additional voltage will give Boost another “gear” so to speak, allowing for higher clock speeds than would normally be achieved.

Since Over Voltage control falls under the auspices of GPU Boost 2.0, the associated limitations regarding thermal limits and their relation to final in-game clock speeds remain in place. Increasing voltage will of course have a negative impact upon thermal load which could lead to Boost throttling performance back until an acceptable temperature is achieved. Therefore, even when a voltage increase is combined with a higher Power Limit and GPU Clock Offset, an overclock may still be artificially limited by the software’s iron clad grip unless temperatures are reigned in. This is why you’ll likely want to look at improving cooling performance before assuming an overclock will yield better results or, while not recommended, expand the Temperature Target to somewhere above the default 80°C mark.

GTX TITAN’s maximum default voltage is currently set at 1.162V which results in clock speeds that (in our case at least) run up to the 992MHz mark, provided there is sufficient thermal overhead. EVGA’s Precision tool meanwhile allows this to be bumped up to at most 1.2V (a mere .038V increase) which likely won’t result in a huge amount of additional overclocking headroom. However, while the maximum Boost clock may not be significantly impacted by the additional voltage, it should allow the TITAN to reach higher average speeds more often, thus improving overall performance. Also expect other board partners to have different maximum voltages set in their VBIOS.

In order to put NVIDIA’s new voltage controls to the test, we ran the TITAN at default clock speeds (GPU and Memory offsets were pegged at “0”) with the Power Target set to 106% and keeping the core temperature at a constant 75°C versus a Temp Target of 80°C. In practice, this should allow that extra .038V to push the maximum Boost speed to another level.

While the frequency increase we’re seeing here is rather anemic, NVIDIA’s inclusion of limited control over core voltage should be welcomed with open arms. Regardless of the end result, seeing a card like the TITAN operating above 1GHz is quite impressive. Some enthusiasts will likely throw their noses up at the severe handicap placed upon the maximum allowable limits but any more could negatively impact ASIC longevity.

In addition, don’t expect the same support from every board partner since NVIDIA hasn’t made the inclusion of voltage control mandatory, nor is the 1.2V maximum set in stone. Some manufacturers may simply decide to forego the inclusion of voltage modifiers within their VBIOS, eliminating this feature altogether or pushing past the 1.2V threshold. So do your research before jumping onto the bandwagon of a particular GTX TITAN model because true voltage control may be a rarity.

The real success or failure of NVIDIA’s voltage tool will ultimately be in the hands of enthusiasts who already feel left out in the cold after GK104’s limitations. To them, this may just be too little too late.

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