GIGABYTE, the world's leading computer brand, is known for its stylish and high-performing motherboards, graphics cards, gaming monitors, and more. The award-winning products are praised by worldwide consumers for their class-leading build quality and performance. What makes GIGABYTE products even more impressive is their friendly designs based on a thorough understanding of user needs and expectations. These ingenious designs are primed to make the products easier to assemble and upgrade for a much-enhanced user experience.

GIGABYTE's Intel-based Z790 series and AMD AM5-based X670, B650 gaming motherboards are equipped with tech that makes PC building and upgrades as easy as possible. The DIY-friendly PCIe EZ-Latch design allows users to easily detach the graphics card from the PCIe slot with a quick-release mechanism; the M.2 EZ-Latch makes installing M.2 SSDs effortless thanks to the screwless design. These latest-gen motherboards also support Intel XMP and AMD EXPO overclocking memory modules for maximum compatibility, and GIGABYTE BIOS comes packaged with pre-installed profiles to help users get greater performance with ease.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, today announced the ultimate overclocking motherboard Z790 AORUS TACHYON with the latest 13th gen Intel Core processors has smashed 10 world O.C. records including PCMark 7, 3D Mark…etc, as well as 16 GFP (Global First Place) of individual category test by different core numbers, and obtained 9 HFP (Hardware First Place) highest record in specific CPU ID vs. core count. Designed by world-famous overclocker, GIGABYTE Z790 AORUS TACHYON packs overclocker-exclusive features with top-quality components to become the dream motherboard for overclockers, which delivers unparalleled O.C performance with a more friendly and thoughtful interface to set its leading role on Z790 O.C. motherboards.

"It's inspiring that Z790 AORUS TACHYON breaks 10 overclocking world records and more than 20 various overclocking scores, which not only proves GIGABYTE's strong R&D strength but also demonstrates that GIGABYTE's devotion to providing formidable O.C motherboard. We believe this is just the beginning and will continue to create superior overclocking performance and records by Z790 AORUS TACHYON. We look forward to seeing more overclockers around the world using this motherboard to break more world records!" said Jackson Hsu, Director of the GIGABYTE Channel Solutions Product Development Division.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, today revealed the supreme performance of XMP DDR5-8000 on Z790 AORUS XTREME and Z790 AORUS MASTER motherboards with Team Group gaming modules T-FORCE DELTA RGB DDR5 memory. Enhanced with the exclusive Low Latency and High Bandwidth technology, this achievement proves again that GIGABYTE motherboard is the ultimate choice to unleash memory performance, as well as the leading role of memory performance by the teamwork of GIGABYTE vs. Team Group.

It's always been challenging to constantly exceed the high-frequency record of memory, and stable motherboards and high-performance memories make a perfect team to accomplish this difficult task. To provide superior performance and user experience, GIGABYTE has been working closely with Team Group on the record-breaking performance from DDR5-7600, DDR-7800, to XMP DDR5 8000. The detailed memory information is listed in the memory support list of the motherboard, users can check on the site for the best performance matrix on the Z790 platform.

Based on details from a PCWorld livestream following AMD's launch of the Radeon RX 7000-series, it was revealed that AMD has designed the Navi 31 GPU to be able to scale as high as 3 GHz. In other words, it appears that AMD has power limited its cards, at least for the SKUs that the company has announced so far. This could be for many reasons, but most likely to try to find a balance between power and performance. The details of the 3 GHz scaling did however not come from AMD directly, but rather from Jarred Walton over at Tom's Hardware. That said, the information was apparently shared with the media by AMD at the event.

In the livestream, it was also confirmed that partner cards will be able to overclock, so expect to see some factory overclocked cards, with higher power draw. This could be why, in part, that ASUS went with a much larger cooler on its TUF Gaming Radeon RX 7900-series cards. As ASUS didn't reveal any clock speeds or TDPs of its two cards, we don't really know what to expect, but we'd be surprised if these cards weren't factory overclocked to some degree when they launch in December.

Intel Core i9-13900K processor has just been launched, and overclockers worldwide got their hand on a few samples to make history. According to the HWBot submission, a Swedish overclocker named "elmor" has pushed Intel's top-end consumer SKU to a fantastic 8.812 GHz. For more than eight years, the record for the single-highest overclocking speed was held by AMD FX-8370, from the now-bygone era of AMD Black Edition processors. The overclocking attempt was performed using liquid nitrogen (LN2) that cools the chip using its −195.8 °C temperature. Pushing core voltage to 1.850 Volts and VCCIN to 2 Volts, multiplier set to x88, and a bus speed of 100.15 MHz. In addition to the Core i9-13900K CPU, elmor used ASUS ROG Maximus Z790 APEX motherboard and 32 GB DDR5 GSKILL memory running at 4808 MT/s.

As a reminder, the FX-8370 CPU was holding the number one sport for eight years with a speed of 8.722 GHz. Beating the FX-8370 by just 90 MHz, it will be interesting to see if any of the upcoming CPU SKUs can match this overclocking record, and we are curious if any contender will come to beat elmor's current record.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, today revealed the breakthrough DDR5 performance of XMP DDR5-7600 and O.C. performance to DDR5-7950 under fan cooling on Z790 AORUS XTREME and MASTER motherboards with Team Group gaming modules T-FORCE DELTA RGB DDR5 7200 memory. Featuring Shielded Memory Routing of SMD memory DIMM, exclusive DDR5 overclocking BIOS setting, top-quality components, and enhanced design from hardware to firmware on motherboards, this performance proves GIGABYTE's strong leading role in product quality and performance.

To unleash the ultimate DDR5 performance, GIGABYTE Z790 AORUS XTREME and MASTER implement new generation Shielded Memory Routing design. By optimizing memory trace width, length, and style from HPC simulation to actual implementation, overall impedance is lowered between CPU memory controller and memory modules. Further with low signal-loss PCB, signal loss inside PCB and external interference are greatly reduced which can maintain high-speed DDR5 signal transmission to achieve higher DDR5 speed. In addition, the abundant BIOS setting of DDR5 Memory Upgrade and XMP 3.0 User Profile lead to the breakthrough performance of XMP DDR5-7600 and DDR5-7950 O.C. under fan cooling with T-FORCE DELTA RGB DDR5 7200 memory. The detailed memory information is listed in the memory support list of the motherboard.

The two gaming product leaders, Team Group and BIOSTAR, have joined forces to release the T-FORCE DELTA RGB DDR5 VALKYRIE Edition DESKTOP MEMORY, the first collaboration of T-FORCE brand from Team Group and VALKYRIE series from BIOSTAR. The design is based on the popular DELTA RGB DDR5 DESKTOP MEMORY and its stealth fighter-influenced look, featuring the signature wide-angled heatspreader with dazzling RGB lightning. On top are the logos of T-FORCE's iconic wing and the classic golden wings of the BIOSTAR VALKYRIE series, also integrating the concept of the warriors' majestic wings in the form of a streamlined design spread across the heatspreader. Gamers can enjoy the memory's striking visuals and legendary performance as T-FORCE and VALKYRIE carry them further in the gaming arena.

T-FORCE DELTA RGB DDR5 VALKYRIE Edition DESKTOP MEMORY is equipped with a next-generation RGB smart control chip, allowing gamers to use BIOSTAR's Advanced VIVID LED DJ software to create a unique RGB setup for their PC. With both outstanding hardware and software supports, users can control and synchronize lighting effects any way they like, making it easy to create a divine look all will admire. The VALKYRIE Edition DDR5 supports the latest Intel XMP 3.0, allowing gamers to enjoy the thrill and performance of overclocking in just a few simple clicks. Furthermore, its special thermally conductive silicone and power management chip (PMIC) cooling design significantly reduce heat, providing stable performance while it runs at high speeds.

The upcoming Intel 13th Gen Core "Raptor Lake" promises to be an overclocker's delight, with an extreme overclocking feat surfacing of an astounding 8 GHz overclock of the chip. There are several riders to this feat. The most obvious being that an engineering sample (and not a retail chip), was used. Extreme cooling, such as liquid-nitrogen was used to keep the feisty chip cool. All 16 of its E-cores were disabled, and the 8 P-cores had HyperThreading disabled.

A stunning 1.792 V core voltage was used, to get the clock speed up to 8000 MHz, with an 80.0 multiplier and 100 MHz base clock. This would be the first Intel processor in around a decade to hit the 8 GHz-mark, with the last one being the i7-5775C "Broadwell." The clock-speed leaderboard is dominated by the AMD FX-8350 and FX-8150, with the unbeaten record being The Stilt's 8772 MHz.

In a couple of days, AMD will be co-hosting its Meet the Experts event with several Taiwanese motherboard makers, which are said to be showing off their upcoming X670/X670E motherboards during the event. However, courtesy of multiple sources, we already have a preview of MSI's upcoming MEG X670E Godlike motherboard. MSI itself has posted a teaser on bilibili in the PRC, which shows off the four M.2 slots the board will have, of which three supports the new-ish, slightly wider 25 mm M.2 form factor, compared to the more common 22 mm width for M.2 drives. Note that MSI writes that all four M.2 slots are PCIe 5.0, but it appears that only one of the slots is actually PCIe 5.0, with the other three being PCIe 4.0. Courtesy of Wccftech, we also have the PCB layout and Videocardz got their hands on most of the specs for the board.

The PCB layout was also annotated by @harukaze5719 to make it easier to see what some of the parts are. The board will apparently have a 24+2+1 power phase layout. It also has two additional power inputs via standard 6-pin PCIe type connectors, one for USB-PD and one that provides extra power for the PCIe slots. The board has a total of three PCIe 5.0 slots, with the first two slots sharing bandwidth and the third slot being a x4 slot that is also connected to the CPU. The board will also have eight SATA ports, two internal USB-C ports, as well as a rear one and a pair of modules around the back of which at least one should be WiFi. The board also has two Ethernet ports, one 10 Gbps and one 2.5 Gbps, at least five USB-A ports, nine fan/pump headers, a POST80 debug LED display and space for some overclocking friendly features. The 24-pin ATX power connector appears to be right-angled. Expect this to be a very premium product price wise, most likely well north of US$800.

Rumors of NVIDIA's upcoming Ada Lovelace graphics cards keep appearing. With every new update, it seems like the total power consumption is getting bigger, and today we are getting information about different SKUs, including mobile and desktop variants. According to a well-known leaker, kopite7kimi, we have information about the power limits of the upcoming GPUs. The new RTX 40 series GPUs will feature a few initial SKUs: AD102, AD103, AD104, and AD106. Every SKU, except the top AD102, will be available as well. The first in line, AD102, is the most power-hungry SKU with a maximum power limit rating of 800 Watts. This will require multiple power connectors and a very beefy cooling solution to keep it running.

Going down the stack, we have an AD103 SKU limited to 450 Watts on desktop and 175 Watts on mobile. The AD104 chip is limited to 400 Watts on desktop, while the mobile version is still 175 Watts. Additionally, the AD106 SKU is limited to 260 Watts on desktop and 140 Watts on mobile.

Extreme overclocking is an enthusiast discipline where overclockers try to push their hardware to extreme limits. Combining powerful cooling solutions like liquid nitrogen (LN2), which reaches sub-zero temperatures alongside modified hardware, the silicon can output tremendous power. Today, we are witnessing a custom XOC (eXtreme OverClocking) BIOS for the NVIDIA GeForce RTX 3090 Ti graphics card that can push the GA102 SKU to impressive 890 Watts of power, representing almost a two-fold increase to the stock TDP. Enthusiasts pursuing large frequencies with their RTX 3090 Ti are likely users of this XOC BIOS. However, most likely, we will see GALAX HOF or EVGA KINGPIN cards with dual 16-pin power connectors utilize this.

As shown below, MEGAsizeGPU, the creator of this BIOS, managed to push his ASUS GeForce RTX 3090 Ti TUF with XOC BIOS to 615 Watts, so KINGPIN and HOF designs will have to be used to draw all the possible heat. The XOC BIOS was uploaded to our VGA BIOS database, however, caution is advised as this can break your graphics card.

AMD's upcoming Socket AM5 Ryzen 7000-series "Raphael" desktop processors will ship with native support for DDR5-5200 memory speed, according to a marketing slide by memory maker Apacer (which also owns the overclocking memory brand ZADAK). The "Zen 4" based desktop processors will feature a dual-channel DDR5 (4 sub-channel) interface, just like the 12th Gen Core "Alder Lake," but with no backwards compatibility with DDR4.

AMD already stated that Ryzen 7000 processors have a design focus on memory overclocking capabilities, including AMD EXPO, a custom memory module SPD extension standard rivaling Intel XMP 3.0, which will come with fine-grained settings specific to the AMD memory controller architecture. Until now, AMD relied on A-XMP, a motherboard vendor-enabled feature based in the UEFI firmware setup program, which translates Intel XMP SPD profiles of memory modules into AMD-approximate settings.

Here are some of the first pictures of the drool-worthy GALAX GeForce RTX 3090 Ti Hall of Fame (HOF) OCLab Edition graphics card, courtesy of Duck OC. This is the first production graphics card to feature two ATX 3.0 16-pin power connectors, each capable of delivering 600 W of power. The card's power limit out of the box is reportedly as high as 516 W, and as we've discussed in an older article, the decision to go with a dual 16-pin connector setup may have to do with limited availability of PSUs with 16-pin connectors, and enthusiasts relying on the NVIDIA-designed adapter that converts three 8-pin PCIe power connectors to a 16-pin, for a maximum power of "just" 450 W.

The RTX 3090 Ti HOF OCLab Edition sticks to the long tradition of GALAX HOF graphics cards with white PCBs, with plenty of overclocker-relevant features such as consolidated voltage measurement points, a decluttered component layout for volt-modding, anti-condensation surface-treatments on the PCB, dual-BIOS, and lots more. The card features a 28-phase VRM, with 24 phases for the GPU, and 4 phases for the memory. The OCLab Edition SKU in particular comes with an included full-coverage water block sourced from Bitspower. The block features nickel-plated copper as its primary material, and a clear-acrylic top that's studded with addressable-RGB LEDs. There's also an air-cooled variant of this card, but it lacks the OCLab tuning.

TechPowerUp has verified a rumour posted over on VideoCardz that is quite puzzling, as AMD has asked motherboard makers to remove support for overclocking in the UEFI/BIOS for the Ryzen 7 5800X3D. When we asked for a reason as to why this was the case, we were told that AMD was keeping that information to themselves for the time being. The details provided by AMD are short and to the point "5800X3D 8C16T 100-xxxxxxxxx 105 W AGESA: PI 1206b 1/28 Please hide Vermeer-X CPU OC BIOS SETUP options".

The information suggests that this happened back at the end of January, although it's no surprise that this information took some time to leak, as it's not the kind of information that would normally make its way outside of the motherboard manufacturers. AGESA 1.2.0.6 B is also the most current release for a wide range of motherboards, even though it doesn't seem to be offered as a final release from all of the board makers just yet. It's unclear why AMD has done this, but it suggests that there might be some issues related to the 3D V-Cache and overclocking.

When Intel announced the company's first hybrid design, codenamed Alder Lake, we expected to see more of such design philosophies in future products. During Intel's 2022 investor meeting day, the company provided insights into future developments, and a successor to Alder Lake is no different. Codenamed "Raptor Lake," it features a novel Raptor Cove P-core design that is supposed to bring significant IPC uplift from the previous generation of processors. Using Intel 7 processor node, Raptor Lake brings a similar ecosystem of features to Alder Lake, however, with improved performance across the board.

Perhaps one of the most exciting things to note about Raptor Lake is the advancement in core count, specifically the increase in E-cores. Instead of eight P-cores and eight E-cores like Alder Lake, the Raptor Lake design will retain eight P-cores and double the E-core count to 16. It was a weird decision on Intel's end; however, it surely isn't anything terrible. The total number of cores now jumps to 24, and the total number of threads reaches 32. Additionally, Raptor Lake will bring some additional overclocking improvement features and retain socket compatibility with Alder Lake motherboards. That means that, at worst, you would need to perform a BIOS update to get your previous system ready for new hardware. We assume that Intel has been working with software vendors and its engineering team to optimize core utilization for this next-generation processor, even though they have more E-cores present. Below, we can see Intel's demonstration of Raptor Lake running Blender and Adobe Premiere and the CPU core utilization.

Online tracking of users happens when 3rd party services collect information about various people and use that to help identify them in the sea of other online persons. This collection of specific information is often called "fingerprinting," and attackers usually exploit it to gain user information. Today, researchers have announced that they managed to use WebGL (Web Graphics Library) to their advantage and create a unique fingerprint for every GPU out there to track users online. This exploit works because every piece of silicon has its own variations and unique characteristics when manufactured, just like each human has a unique fingerprint. Even among the exact processor models, silicon differences make each product distinct. That is the reason why you can not overclock every processor to the same frequency, and binning exists.

What would happen if someone were to precisely explore the differences in GPUs and use those differences to identify online users by those characteristics? This is exactly what researchers that created DrawnApart thought of. Using WebGL, they run a GPU workload that identifies more than 176 measurements across 16 data collection places. This is done using vertex operations in GLSL (OpenGL Shading Language), where workloads are prevented from random distribution on the network of processing units. DrawnApart can measure and record the time to complete vertex renders, record the exact route that the rendering took, handle stall functions, and much more. This enables the framework to give off unique combinations of data turned into fingerprints of GPUs, which can be exploited online. Below you can see the data trace recording of two GPUs (same models) showing variations.

3DMark Fire Strike Hall of Fame is where overclockers submit their best hardware benchmark trials and try to beat the very best. For years, one record managed to hold, and today it just got defeated. According to an extreme overclocker called "biso biso" from South Korea and a part of the EVGA OC team, the top spot now belongs to the AMD Radeon RX 6900 XT graphics card. The previous 3DMark Fire Strike world record was set on April 22nd in 2020, when Vince Lucido, also known as K|NGP|N, set a record with four-way SLI of NVIDIA GeForce GTX 1080 Ti GPUs. However, that record is old news since January 27th, when biso biso set the history with AMD Radeon RX 6900 XT GPU.

The overclocker scored 62389 points, just 1,183 more from the previous record. He pushed the Navi 21 XTX silicon that powers the Radeon RX 6900 XT card to an impressive 3,147 MHz. Paired with a GPU memory clock of 2370 MHz, the GPU was probably LN2 cooled to achieve these results. The overclocker used EVGA's Z690 DARK KINGPIN motherboard with Intel Core i9-12900K processor as a platform of choice to achieve this record. You can check it out on the 3DMark Fire Strike Hall of Fame website to see yourself.

G.SKILL International Enterprise Co., Ltd., the world's leading manufacturer of extreme performance memory and gaming peripherals, is thrilled to announce the achievement of a new overclocking world record for fastest memory frequency at DDR5-8888 CL88-88-88-88, in cooperation with ASUS. This amazing frequency speed was achieved by the extreme overclocker "lupin_no_musume" with G.SKILL Trident Z5 DDR5 memory, ASUS ROG Maximus Z690 APEX motherboard, and Intel Core i9-12900K processor. To see the moment this amazing overclocking world record was set, please click the following video link: https://youtu.be/OgQFbUOs6i8

DDR5-8888 CL88-88-88-88 - Pushing the Speed to the Limit
At the dawn of the DDR5 era, G.SKILL and ASUS have been constantly exploring the memory speed limitations of the latest Intel Z690 platform. Surpassing the previous DDR5-8704 world record in November 2021, a new memory frequency world record is achieved at DDR5-8888 under liquid nitrogen extreme cooling. The memory speed has been validated by CPU-Z. Please refer to the screenshot and validation link below: https://valid.x86.fr/qgvylc

You may, or may not have noticed that in certain parts of the interweb, groups of people that are generally referred to as "Overclockers" have managed to get their cheap Celeron G6900's and Core i3-12100's to run at much higher clock speeds than Intel intended and now the company is unhappy about it, as they're anticipating that they're going to lose sales of more expensive CPUs. As such, Intel has issued a warning via Tom's Hardware
"Intel's 12th Gen non-K processors were not designed for overclocking. Intel does not warranty the operation of processors beyond their specifications. Altering clock frequency or voltage may damage or reduce the useful life of the processor and other system components, and may reduce system stability and performance."

Jokes aside, the lower end SKU's of Intel's 12th gen Alder Lake CPUs seem to be phenomenal overclockers, if you have the right motherboards. If the motherboard doesn't have an external clock gen, plus support for adjusting the BCLK on non-K CPUs, then you're not going to have much luck. This means, at least at the moment, that you're looking at fairly pricey Z690 motherboard, although there are rumors that we can expect the odd B660 motherboard that will get an external clock gen, with at least three models already reported to have BCLK adjustment support via beta UEFI updates. Pro Overclockers have already managed to hit speeds in excess of 5.3 GHz with the Celeron G6900 and that is only by adjusting the BCLK and the Voltage, which is no mean feat, as the CPU has fixed clock speed of 3.4 GHz, which makes this a 57 percent boost in clock speed. Intel is said to be looking into this unintended ability to overclock these CPU SKUs and is apparently looking at locking down this ability with a new microcode update in a future UEFI release.

Update: Added a screenshot from TPU's upcoming Core i3-12100F review, showing 5.2 GHz at 130 MHz BCLK.

Based on details from multiple sources, least not the release notes for HWiNFO 7.17 beta, we now know that AMD is working on an answer to Intel's XMP memory profiles that should be called RAMP, or Ryzen Accelerated Memory Profile. Not much is known about RAMP at this point in time, but hopefully it'll be as straightforward to use as Intel's XMP when it comes to configuring overclocked DIMMs.

Intel has of course updated XMP to version 3.0 which includes support for DDR5 memory, although it was reported that Intel was late when it came to finalising the specifics of XMP 3.0, which meant some early DDR5 modules intended for overclocking didn't end up getting any XMP profiles. Hopefully AMD will get its RAMP spec finished well ahead of time, so the memory makers that want to offer support for RAMP can do so well ahead of the launch of AMD's upcoming AM5 platform.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions today announced AORUS RGB DDR5 6000 MHz 32 GB Memory Kit, which uplift frequency to 6000 MHz with RGB lighting for performance boost and striking accents. Enhanced by DDR5 XMP Booster and XMP 3.0 User Profile of GIGABYTE Z690 motherboards, and copper-aluminium heat spreaders with nano-carbon coating thermal design, the new memory kit promises the next-level performance with stability while dissipating heat efficiently under high-speed operation.

AORUS RGB DDR5 6000 MHz 32 GB Memory Kit features high clock speed and low power consumption by two 16 GB DDR5 XMP 6000 MHz dual-channel designs with 40-40-40-76 timings, which fit the support of DDR5 memory on Intel Z690 platform. Along with GIGABYTE Z690 AORUS motherboards, AORUS RGB DDR5 6000 MHz 32 GB memory kit can enable "DDR5 XMP Booster" function which detect the brand of memory IC in the BIOS setting to allow users to choose promptly from multiple built-in memory overclocking profiles, boosting the native DDR5 or XMP DDR5 memory speed. Furthermore, "XMP 3.0 User Profile" enables users to create and store XMP profiles of their own to unleash the extreme performance of memories.

According to the latest round of rumors coming from tech media VideoCardz, Intel could be preparing an answer to AMD's 3D V-cache in the form of... pre-binned Core i9-12900KS? As per the report, Intel could be making a pre-binned, pre-overclocked Core i9-12900KS processor with an all-core turbo boost frequency of 5.2 GHz. This alleged clock speed will push the processor to some fantastic heights and increase the overall performance of the regular Core i9-12900K processor. With AMD's Ryzen processors with 3D V-cache incoming, Intel has prepared this solution to keep up with the increasing pressure from AMD.

So far, we don't know the specific requirements for Core i9-12900KS to reach 5.2 GHz. However, we assume that Voltage needs a big boost, making cooling and power supply requirements increase. This special edition Alder Lake design should launch around the same time frame that AMD reveals its 3D V-cache enabled Ryzen processors, so Intel doesn't let AMD steal the performance crown.

A couple of days ago, GIGABYTE boasted with an overclocking record made using one of the company's motherboards. Allegedly, the company has achieved a world record of Alder Lake overclocking, causing the CPU to go up to 8 GHz frequency. However, such a claim was rather sketchy, according to the CPU-Z developer "Doc TB." In the later investigation, he concluded that the submission took advantage of a false reporting algorithm that gave HiCookie and GIGABYTE a chance to submit a world record as validated by the CPU-Z validator program. Further investigation concluded that the program reported incorrect numbers, and GIGABYTE's world record of 8 GHz on Alder Lake had been made invalid as of now.

The CPU-Z validation team is working hard to update the validation algorithm and make it more challenging for false submissions to appear valid. One interesting thing to point out is that HiCookie and GIGABYTE have already attempted to post false records with the launch of AMD's Ryzen 5000 series of processors, where they claimed that the CPU managed to reach 6,362.16 MHz, where in reality it was running at 5,683.94 MHz. This overclocker submitted those faulty results to HWBot as fake at the time and has now done it again.

EVGA Z690 motherboards paired with 12th Gen Intel Core Series processors bring unprecedented overclocking performance and an unparalleled experience to PC gaming. The Intel Z690 Chipset supports the latest DDR5 memory and PCIe Gen5 standards, making these motherboards ready for the next generation of hardware. EVGA Z690 motherboards further elevate your system with a powerful digital-VRM design, multiple PCIe Gen4 M.2 NVMe options, right-angle power connectors, an award-winning BIOS, and overclocking world-records.

EVGA DARK motherboards blaze the trail for other boards to follow, and the Z690 DARK K|NGP|N is no exception. The ability to destroy world records is insignificant next to the power of a 21-phase VRM and a 10-layer PCB - capable of driving the most powerful 12th Gen Intel Core processors. With DDR5, PCIe Gen5, and PCIe Gen4 M.2 NVMe support, a new DARK age of overclocking will rise as quickly as new hardware becomes available. Multiple USB options, 8x SATA 6 Gb/s ports, 2x 2.5 Gbps NICs + Wi-Fi 6E / BT 5.1, 7.1 HD audio, 3x M.2 Key-M slots, and 2x pump headers exclusively built for CPU AIO cooling help round out everything else you need in a premium motherboard. The Z690 DARK K|NGP|N is today's choice for the future of overclocking and gaming.

Another day, another Intel Alder Lake leak, although this time it seems to be the same Core i9-12900K retail CPU that is being tested in China. Some additional details have been provided on its ability to overclock and although it's perfectly possible to overclock these upcoming CPUs from Intel, it's going to be hard to cool them, even for very small gains in clock speeds.

An all core P-core overclock, with the E-cores at default requires quite the Voltage bump as well, since according to the leaked information, going from 4.9 GHz and a power draw of 233 Watts, with a CPU Voltage of 1.275 V to 5.2 GHz, sees a jump of almost 100 Watts. The CPU Voltage also has to be bumped to 1.38 V in the sample used. However, pushing the CPU to 5.3 GHz requires 1.44 V and pushes the CPU power to a massive 400 W, which is high-end GPU territory. That said, we're hearing that not all CPUs need this high Voltage to hit 5.2 GHz, although we also understand that 5.3 GHz is not a speed that will be easily attained. Apparently the best way to get the most performance out of these news CPUs will be to tune the turbo settings, rather than to try and overclock them.