GALAX Overclocking Carnival OC Lab 5th Anniversary | Page 7

as well for the TU102 GPU. Again, it could have gone catastrophically wrong, but in the end it all worked remarkably well thanks to the specially designed container courtesy of the engineering and machining capabilities of Bitspower. It is said there were at least three revisions of this container, but at the end it was made just right and dozens of these were eventually manufactured for use at the 10th GOC competition a couple of months later. Dubbed the HOF Actual-F LN2 container, this container has proved to be more than up to the task bringing great control while handling massive amounts of heat exceptionally well. With plenty of mass, the container makes gradual temperature increases feasible without sacrificing control. Helpful as precision control of LN2 isn’t as natural to everyone but remains necessary for high clock frequencies and even more critical at the very edge of stability and clock frequencies. Concerning memory, GALAX would of course be offering their HOF DRAM and as expected it delivered immensely. For the overclockers mainly attacking the 2D benchmarks, in Duck and Fred Yama (Super PI 32M) this memoy were indispensable, capable of achieving the 4133MHz CL12 setting as expected of all extreme overclocking DRAM. Coincidently, on one of the days, GALAX technical personal were testing 5GHz DRAM on a couple of ROG motherboards and from the little feedback they were willing to share. It looks as if the HOF DDR4 5000 works more than well on the boards in question (Maximus X Apex, XI Gene and another MSI board I believe). Either way, should GALAX release some noteworthy memory modules in 2019, do not be surprised as they have been tuning these DRAM kits as far back as the September of 2018. From the outside looking in, building an OC lab and of course producing overclocking ready hardware seems trivial. Simply assemble the best components within reason, slap on a great cooler and off you go. Understandably, from this position it can seem as if it’s all marketing speak pinned on a hope and a prayer - yet little could be farther from the truth as it’s a lot more involved, needing hundreds of man hours, resources and multiple attempts to get right while complying with NVIDIA’s specifications. The unfortunate part here being that you could be an avid supporter of all GALAX components, yet miss out entirely on what the OC Lab has brought to those very components. For one to appreciate this, it is necessary to take part in extreme overclocking, as it’s here where the engineering efforts are most vivid. While making overclocking capable hardware doesn’t necessarily need these resources (Lab, staff, consistent supply of LN2, hardware etc.), but the edge it has given GALAX and specifically the HOF parts is undeniable. It’s perhaps in recognition or anticipation of this that the powers within GALAX undertook this OC Lab project. Many of the things that make their HOF GPUs a breeze to overclock and yet so capable are due in some part to what this live environment allows. It is here where extreme overclockers can test hardware under many varied conditions and with a combination of hardware, that would otherwise fall entirely to GALAX to test. As such, even if it were only for this single reason, the OC Lab is a substantial and meaningful part of all HOF Hardware. In terms of legacy, it should come as a surprised to some that GALAX overclocking cards are ten years old going on 11. If you weren’t aware, the first card focused on overclocking which found its way to market wasn’t a high-end GPU, but a GeForce GTX 460. For a decade since, GALAX has continuously refined its engineering and manufacturing of graphics card, eventually introducing the HOF series as well. Constantly evolving the models, despite the increase in difficultly imposed by Issue 46 | 2019 The OverClocker 11