ROG is obsessed with chasing the highest overclocks and fastest performance. We take these pursuits so seriously that our engineers created a series of Apex motherboards specifically for setting records. The first iteration appeared in the Maximus IX family for Z270 and broke both frequency and benchmark records for Kaby Lake CPUs. Now, its Maximus X Apex successor has arrived with Z370 and Coffee Lake. Our in-house experts have been hard at work setting new records that cement the Apex’s status as the top overclocking motherboard for Intel processors.


Meet the Maximus X Apex

Before we get into the records, it’s worth taking a moment to introduce the board. Although the Apex arrives as part a new Maximus X family, you can easily pick it out from the crowd. The unique X-shaped PCB stands out visually even without the RGB lighting that glows behind its cut-out edges. Aura Sync backlighting extends to a customizable nameplate in the center of the board, and you can illuminate an entire system via four onboard headers for LED strips.

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Closer inspection reveals the Maximus X Apex’s extreme overclocking aspirations. Dual 8-pin connectors supply extra power to the CPU, voltage probing points stand ready for multimeter monitoring, and special LN2 modes adapt to sub-zero cooling. To prevent liquid-nitrogen vapor from disrupting your view at a critical moment, we’ve added a fan bracket to the I/O heatsink, plus extra headers for full-speed fans, so you can easily direct airflow toward your pot.

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Another clue to the Apex’s mission lies in the dual-DIMM layout, which has half as many slots as typical Z370 boards. The traces can be more direct with only one DIMM per memory channel, leading to improved signaling that improves DRAM stability and increases overclocking headroom. The extra slot next to the DRAM is for our DIMM.2 module; it can hold two NVMe SSDs along with dedicated fans to keep drives from throttling under heavy sustained loads. We even pushed performance on the networking front with a wired 5G NIC that blows past Gigabit Ethernet speeds.


Extreme preparation

It’s customary for us to fly in a few well-known overclockers to help put a new platform through its paces.  Usually, we share the results of these endeavors without detailing the background work required to obtain the scores. However, in case all of this comes across as being too easy, we’ve decided to share some of the details with you.

While the Apex provides the perfect foundation for breaking performance records, the accompanying hardware also needs to be up to the task. The overclocking capabilities of CPUs and memory modules vary from sample to sample, so the hardware needs to be hand-picked. It’s a time-consuming process that requires multiple stages of evaluation.

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The first step involves binning CPUs by using air cooling and subjecting them to a multi-threaded benchmark (Cinebench) at a frequency and voltage (Vcore) that weeds out the stragglers. This process nets the top 10-15% of samples, which are then re-tested to check how Vcore requirements scale as clock frequencies increase.

With initial data obtained, CPUs are de-lidded to replace the stock thermal interface material (TIM). TIM choice is critical because the compound needs to be malleable enough to cope with the contraction and expansion of surfaces during extreme benchmarking. Eventual fractures are inevitable, but some materials perform better than others in this regard.


MAXIMUS liquid nitrogen (LN2) cooling

Binned CPUs are then subjected to liquid nitrogen (LN2) cooling, noting maximum operating frequencies and required voltages to pass a multi-threaded benchmark.  Usually, a few samples will exhibit quirks when cooled past a certain temperature. With Coffee Lake, the issues aren’t severe, as CPUs can POST at temperatures that are close enough to the cooling limit of LN2 (-180 – 190°C). At worst, CPUs need to be ‘warmed’ to -150°C to work around the dreaded ‘cold-boot bug.’  To some extent, this also helps reduce chances of the TIM cracking due to thermal cycling.

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Of course, there’s still a risk of fracture when running multi-threaded benchmarks because the TIM has to transfer hundreds of watts of heat, which causes a large temperature delta between the die and integrated heat spreader. The temperature disparity can result in the rapid expansion and contraction of those surfaces, a prime recipe for paste fracture.

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Naturally, most modules we test don’t meet our requirements. Even when they do, required voltages can vary, making it extremely difficult to find a matching set.


And this brings us back to the Apex. Achieving such latencies at DDR4-4200 isn’t possible on conventional motherboards, but the Apex’s highly optimized two-DIMM layout and tuned firmware make it possible. At the same time, CPU power delivery needs to be robust enough to run benchmarks at high clock speeds. When overclocked to 6.5GHz, a 6-core Coffee-Lake CPU can draw in excess of 600 watts under full load, and the Apex’s 8-phase power solution is more than up to the task.


This over-engineering pays dividends for conventional cooling, too.

These are the images of some ASUS Z370 motherboards

The data we obtain from the binning process is also of interest for ambient cooling. Our Coffee Lake testing revealed that 50% of early 6-core CPUs can achieve 5GHz with water cooling. If retail CPUs achieve the same, it shows Intel’s mastery of the 14-nm process. Compared to Kaby Lake, we’re getting two extra cores and better power efficiency without sacrificing overclocking potential. If everything comes together with final chips, Coffee Lake could set new overclocking standards for mainstream desktops.


With the binning process complete and a handful of promising CPUs at our disposal, we invited a few renowned overclockers to test the limits of the Z370 platform.



Pushing the limits of the i7-8700K

From an extreme overclocking perspective, obtaining a CPU frequency validation is practically mandatory. We have a long-standing tradition to uphold, with generations of ROG motherboards holding frequency world records with different CPUs.


The Maximus X Apex didn’t disappoint with Coffee Lake. Extreme overclocker der8auer was able to save a Core i7-8700K validation at 7.3GHz on all 6 cores and 12 threads. That’s double the 3.7GHz base frequency of the processor.

Roman - cpu-z - i7 8700K 7300

So, our in-house overclockers decided to take a stab at the current memory frequency world record, and they managed to break it with an 8GB G.Skill DDR4 module clocked at 5529.2MHz using 24-31-31-63-3 (CAS-tRC-tRP-tRAS-CR) timings.


We didn’t just concentrate on frequency records. The table below shows the full gamut of top scores set by the Maximus X Apex teamed with the i7-8700K, along with the CPU clock for each score.

BenchmarkScoreCPU frequencyOverclockerPrevious scorePrevious CPU frequency
Cinebench R11.525.14 (GFP)6866MHz[email protected]21.795960MHz
Cinebench R152306 (GFP)6844MHz[email protected]20255960MHz
Geekbench3 multi42704 (GFP)6906MHz[email protected]383855960MHz
GPUPI for CPU – 1B2mn 29s 053ms (GFP)6844MHzRsannino2mn 50s 531ms5960MHz
x265 – 1080P82.8 (GFP)6752MHz[email protected]73.095900MHz
x265 – 4K18.38 (GFP)6700MHz[email protected]17.095800MHz
wPrime 32M1s 996ms (GFP)6900MHz[email protected]2s 281ms5989MHz
wPrime 1024M1mn 1s 418ms (GFP)6868MHz[email protected]1mn 10s 890ms5950MHz
XTU3532 (GFP)[email protected]29845900MHz
3DMark0673519 (WR)7010MHzRsannino720016848MHz

Aside from 3DMark06, all of the new scores bested previous results set on the X299 platform with an i7-7800X CPU. That’s because the Skylake-X CPUs use Intel’s fully integrated voltage regulator, which makes them intolerant of temperatures colder than -100°C. In contrast, Coffee Lake processors rely on conventional power delivery. And are capable of running at the limits of liquid nitrogen cooling (-186°C).  On both architectures, a 10 Celsius drop in temperatures improves overclocking headroom by at least 100MHz. Limited to -100°C, Skylake-X CPUs top out at 6GHz. Better tolerance for extreme cryogenic temperatures gives Coffee Lake CPUs a 1GHz advantage in peak clock speeds.


David is the chief editor, publicist, and marketer by profession at Optocrypto. He is a Passionist for the technological world and wants to aware of all the benefits of the latest technology.

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