Steve started GamersNexus back when it was just a cool name, and now it's grown into an expansive website with an overwhelming amount of features. He recalls his first difficult decision with GN's direction: "I didn't know whether or not I wanted 'Gamers' to have a possessive apostrophe -- I mean, grammatically it should, but I didn't like it in the name. It was ugly. I also had people who were typing apostrophes into the address bar - sigh. It made sense to just leave it as 'Gamers.'"
First world problems, Steve. First world problems.
Early reports surrounding Vega GPU packaging indicated minimally two different package processes, though later revealed a potential third. For the two primary forms of Vega GPU packaging, we’re looking at clear, obvious differences in assembly: The silicon (GPU + HBM) is either encased in an epoxy resin (“molded”) or is not encased at all (“resinless”). There is another type of resinless package that has been shown online, but we haven’t yet encountered this third type.
The initial concern indicated that packaging process could impact HBM2 contact to cooler coldplates – something for which, after working on this content, we later discovered new data – and we wanted to test that mounting pressure. Just last night, days after we finalized this content piece, we found another data point that deserves a separate article, so be sure to check back for the follow-up to this piece.
In the meantime, we’re using a chemically reactive contact paper to test various Vega GPUs and vapor chambers or coolers, then swapping coolers between those various GPUs to try and understand if and when differences emerge. Some brief thermal testing also helps us validate whether those differences, which would theoretically be spurred-on by packaging variance, are actually relevant to thermal performance. Today, we’re testing to see the mounting pressure and thermal impact from AMD’s various Vega 56 & 64 GPU packages, with a brief resurrection of the Frontier Edition.
Note: We used torque drivers for the assembly, so that process was controlled for.
EK Water Blocks has seemingly had a strong year, dotted with numerous major product launches and expansion into the mainstream market (with the EK Fluid Gaming series). In spite of this, TechPowerUp just broke news that EKWB’s CEO, CTO, Head of Marketing, and numerous R&D engineers have all departed the company. The company remains 90-strong, but has lost much of its R&D department and head management as of today.
We’ve reviewed a lot of cases this year and have tested more than 100 configurations across our benchmark suite. We’ve seen some brilliant cases that have been marred by needless grasps at buzzwords, excellently designed enclosures that few talk about, and poorly designed cases that everyone talks about. Cases as a whole have gone through a lot of transformations this year, which should seem somewhat surprising, given that you’d think there are only so many ways to make a box. Today, we’re giving out awards for the best cases in categories of thermals, silence, design, overall quality, and more.
This awards show will primarily focus on the best cases that we’ve actually reviewed in the past year. If some case you like isn’t featured, it’s either because (A) we didn’t review it, or (B) we thought something else was better. It is impossible to review every single enclosure that is released annually; at least, it is impossible to do so without focusing all of our efforts on cases.
Here’s the shortlist:
We’re reviewing the 360mm Enermax TR4 Liqtech cooler today, matched-up against the 240mm variant and with a special appearance from the Noctua NH-U14S TR4 unit. We previously benchmarked the Enermax Liqtech 240 TR4 closed-loop liquid cooler versus the Noctua NH-U14S, resulting in somewhat interesting findings. The larger version of the Liqtech, the 360mm cooler, is now on the bench for comparison with an extra fan and a wider radiator. The NH-U14S returns, as does the X62 (mostly to demonstrate smaller coldplate performance).
We’re still using our 1950X CPU on the Zenith platform, overclocked to 4.0GHz at 1.35Vcore. The point of the OC isn’t to drive the highest possible clock, but to generate a larger power load out of the CPU (thus stressing to a point of better demonstrating performance deltas).
At time of publication, the Enermax Liqtech 240 TR4 is priced at ~$130, with the 360 at ~$150, and with the NH-U14S at ~$80.
Buildzoid of Actually Hardcore Overclocking recently joined us to explain what Load-Line Calibration is, and how LLC can be a useful tool for overclocking. LLC can also be dangerous to the life of the CPU if used carelessly, or when using the Extreme LLC setting without knowing fully how it works.
For anyone working on CPU overclocking and facing challenges with voltage stability, or anyone asking about Vdroop, LLC is a good place to start. LLC settings tuning should help stabilize voltage and prevent blasting the CPU with deadly Vcore. Learn more below:
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