![]() To get a peak temperature and make sure this overclock was in fact stable, I looped 3DMark’s Fire Strike Ultra (4K) test for about 100 minutes. I am sure I could have pumped even more voltage to breach +210MHz, but +24mV seemed like a good place to stop given the temperatures I was seeing after a long stress. ![]() When inching near the +200MHz mark, I didn’t require a voltage boost, but I did at +200MHz, and subsequently +210MHz. Given my experience with TITAN X thus far, I feel confident in saying that a +175MHz boost should be possible on most cards – an overclock that doesn’t require a voltage boost.Īll told, I ended up reaching a top stable overclock of +210MHz on the GPU and +400MHz on the memory. At this point, I’m not sure if that’s true or not, as results are all over the map from fellow reviewers – some show as low as a 100MHz gain, while others show upwards of 250MHz. In advance of TITAN X’s launch, NVIDIA told us that a top-end clock speed of about 1,400MHz could be a common sight. I’m not talking about those sorts of overclocks that break records, but 100% stable overclocks that prove genuinely worthwhile – those that can add at least 10% to the performance.Ĭan the TITAN X achieve that level of greatness? On account of the fact that this ~2,000 word article exists, you can probably already guess the answer! TITAN X Overclock: Stable, Not Stirred As it is now, though, I have to admit that I’m glad I waited, as it’s allowed me to spend a lot more time to find that “perfect” overclock.Īlright – so a “perfect” overclock doesn’t actually exist. When I posted my look at NVIDIA’s GeForce GTX TITAN X at its launch last month, there were a couple of tests I had to skip over due to a lack of time, one of which was overclocking.
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