An AMD Ryzen 9 7950X "Zen 4" 16-core/32-thread processor was put through the Geekbench 5.4.5 benchmark, and it's becoming all too clear that AMD has a highly competitive product on its hands. The 7950X yielded a single-threaded score of 2217 points, and 24396 points in the multi-threaded tests. With these scores, the 7950X is about 14% faster than the "Golden Cove" P-cores of the i9-12900K "Alder Lake" processor in the single-threaded tests, and comes out as being 41% faster than it in the multi-threaded test. Against the leaked i9-13900K "Raptor Lake," the 7950X is shown being about 4% slower in the single-threaded test (against the "Raptor Cove" P-cores); and about 7.8% slower in the multi-threaded test.

Alleged Cinebench R23 single-threaded benchmark numbers of the upcoming Ryzen 7 7700X and Ryzen 5 7600X "Zen 4" processors, leaked to the web by Greymon55, and tabulated by VideoCardz, show the two chips to be matching Intel's 12th and 13th Gen Core processors. The 7700X 8-core/16-thread processor is shown scoring anywhere between 2000 to 2099 points (denoted as 20xx), while the 7600X does anywhere between 1900 to 1999 points (19xx). This would see the two easily match/beat the 12th Gen Core "Alder Lake" P-cores, with the i9-12900K scoring 2000 points, and the i5-12600K getting 1920 points.

Numbers for the unreleased 13th Gen Core "Raptor Lake" put Intel at an advantage, with the i9-13900K allegedly scoring 2290 points, and the i5-13600K allegedly 1967 points, but what's important is that the single-thread performance, and application performance of less-parallelized workloads, such as games, could be highly competitive for "Zen 4" against Intel.

According to an investigative report by "Chips and Cheese," the larger L2 caches in Intel's 13th Gen Core "Raptor Lake-S" doesn't come with a proportionate increase in cache latency, and Intel seems to have contained the latency increase well. "Raptor Lake-S" significantly increases L2 cache sizes over the previous generation. Each of its 8 "Raptor Cove" P-cores has 2 MB of dedicated L2 cache, compared to the 1.25 MB with the "Golden Cove" P-cores powering the current-gen "Alder Lake-S," which amounts to a 60 percent increase in size. The "Gracemont" E-core clusters (group of four E-cores), sees a doubling in the size of the L2 cache that's shared among the four cores in the cluster, from 2 MB in "Alder Lake," to 4 MB. The last-level L3 cache shared among all P-cores and E-core clusters, sees a less remarkable increase in size, from 30 MB to 36 MB.

Larger caches have a direct impact on performance, as more data is available close to the CPU cores, sparing them a lengthy fetch/store operation to the main memory (RAM). However, making caches larger doesn't just cost die-area, transistor-count, and power/heat, but also latency, even though L2 cache is an order of magnitude faster than the L3 cache, which in turn is significantly faster than DRAM. Chips and Cheese tracked and tabulated the L2 cache latencies of past Intel client microarchitectures, and found a generational increase in latencies with increasing L2 cache sizes, leading up to "Alder Lake." This increase has somehow tapered with "Raptor Lake."

MSI has updated its Prestige series lineup with new members, Prestige 16 and Prestige 16 EVO. Both in Urban Silver color and equipped with Intel 12th Gen Core i7 Processor, they are powerful productivity tools that business users can really appreciate.

The MSI Prestige 16 has a decent discrete GPU performance from NVIDIA GeForce RTX 3050 Ti, and is the first Prestige laptop that has a 16:10 ratio mini-LED panel. With the MSI True Color Technology, it reaches the high dynamic range (HDR) with DisplayHDR 1000 standard, which significantly expands the range of two important factors—contrast ratio and color accuracy. Thanks to Dynamic Cooler Boost, MSI's patented dual-fan thermal technology, Prestige 16/Prestige 16 EVO are powerful laptops that maintain less than 35 dB background noise. For business users who hold online conferences frequently, they can expect to have smooth video conferencing experience with the quadruple microphone and Ambient Light Sensor that come along with AI noise canceling solution.

AMD has reportedly pushed market-availability date of its next-generation Ryzen 7000 series "Zen 4" desktop processors from September 15 to September 27, 2022. This would clash with the rumored product-announcement date of the Intel 13th Generation Core "Raptor Lake" processor series. If true, this is possibly a move designed to prevent Intel from sharing performance numbers of Ryzen 7000-series processors in the product-announcement presentation of "Raptor Lake," as Intel can only compare the chips it is announcing with competing AMD products that are available in the market at the time.

A September 27 market availability could still mean a late-August product announcement along the sidelines of Gamescom, with product reviews in the following weeks. It's just that the market availability date is now pushed to late-September. Intel's launch cycle for "Raptor Lake" could see a late-September announcement, but it remains to be seen if product availability is immediate, or timed weeks later. The 13th Gen Core "Raptor Lake" processor is built on the same LGA1700 package as current "Alder Lake," and compatible with existing Intel 600-series motherboards with a UEFI firmware update; although will be launched alongside new Intel 700-series chipset motherboards. AMD's Ryzen 7000-series product launch will be timed with those of compatible Socket AM5 motherboards based on the AMD 600-series chipset, and a new line of DDR5 memory modules featuring the AMD EXPO technology.

Remember that Xe-HPG Scavenger Hunt that Intel hosted last year? If you somehow missed it, Intel was maybe giving away some Arc graphics cards to 300 lucky winners. There were two different tiers of prizes, grand prize and first prize, which later ended up translating to an Arc A770 and an Arc A750 graphics card respectively. Now news via VideoCardz are suggesting that Intel is trying to get out of giving these 300 people their prize, well, at least the promised graphics card, in exchange for an Alder Lake CPU.

Intel has apparently sent out an email to the winners, asking them to accept an Intel Core i7-12700K if they were a grand prize winner or a Core i5-12600K if they were a first prize winner, instead of the promised graphics card. The winners have until Friday the 19th of August to decide if they want a CPU instead of a GPU, although Intel is apparently still allowing them to wait for a GPU, the company just doesn't say how long the wait will be. As the prize has to have a similar retail price, it's also possible to get a ballpark figure of the MSRP of Intel's supposedly upcoming Arc 700-series graphics cards. The Arc A770 should end up at around the $410 mark and the A750 around the $290 mark, as this is the ballpark MSRP for the CPU's that are being offered. It would be interesting to know how many people would be willing to do the trade, but sadly we're unlikely to ever find out.

Akasa, a leading provider of fanless cases, have recently released two new examples, updated for the LGA1700 mounting size. The Galileo TU Plus and the Euler TX Plus have been designed for thin Mini-ITX motherboards, these cases can be used in a server rack (Galileo TU1 and TU3 have rack mounts included, A-ITX52-M1B and A-ITX54-M1B respectively) or can be hidden away for a clean, truly silent aesthetic.

With the newest release of Intel's 12th generation Alder Lake processors, the socket change to LGA1700 has led to an alteration in the heatsink's mounting mechanism. The Galileo TU Plus and Euler TX Plus are compatible with LGA1700, as well as LGA1200 and LGA1151 with the included mounting brackets. This ensures a tight connection between the processor and the thermal block, making the case an excellent heatsink for Intel processors from 6th generation up to the latest 12th generation.

An Intel Core "Raptor Lake" engineering sample was de-lidded by Expreview giving us a first look at what will be Intel's last monolithic silicon client processor before the company switches over to chiplets, with its next-generation "Meteor Lake." The chip de-lidded here is the i9-13900, which maxes out the "Raptor Lake-S" die, in featuring all 8 "Raptor Cove" P-cores and 16 "Gracemont" E-cores physically present on the die, along with 36 MB of shared L3 cache, and an iGPU based on the Xe-LP graphics architecture.

The "Raptor Lake-S" silicon is built on the same Intel 7 (10 nm Enhanced SuperFin) silicon fabrication node as "Alder Lake-S." The "Raptor Lake-S" (8P+16E) die measures 23.8 mm x 10.8 mm, or 257 mm² in area, which is 49 mm² more than that of the "Alder Lake-S" (8P+8E) die (around 209 mm²). The larger die area comes from not just the two additional E-core clusters, but also larger L2 caches for the E-core clusters (4 MB vs. 2 MB), and larger L2 caches for the P-cores (2 MB vs. 1.25 MB); besides the larger shared L3 cache (36 MB vs. 30 MB). The "Raptor Cove" P-core itself could be slightly larger than its "Golden Cove" predecessor.

Intel Graphics, with its latest Graphics Drivers 31.0.101.3222, changed the coverage of its latest driver updates. The company would be providing game optimizations and regular driver updates only for its Gen12 (Iris Xe), and Arc "Alchemist" graphics products. Support for Gen9, Gen9.5, and Gen11 iGPUs integrated with 6th, 7th, 8th, 9th, and 10th generations of Intel processors, namely "Skylake," "Kaby Lake," "Coffee Lake," "Ice Lake," and "Cascade Lake," will be relegated to a separate, quarterly driver update cycle, which only covers critical updates and security vulnerabilities, but not game optimizations.

Intel's regular Graphics Driver cycle that includes Day-0 optimizations timed with new game releases, will only cover the Gen12 Xe iGPUs found in 11th Gen "Tiger Lake," "Rocket Lake," and 12th Gen "Alder Lake" processors; besides the DG1 Iris Xe graphics card; and Arc "Alchemist" discrete GPUs. Version 31.0.101.3222 appears to be a transitioning point, and so it has drivers from both branches included within a 1.1 GB package (the main branch supporting game optimizations for new GPUs, and the legacy branch for the older iGPUs). You can grab this driver from here.

Durabook, the global rugged mobile solutions brand owned by Twinhead International Corporation, today announced significant updates to its R11 fully rugged tablet, achieving a world-first with its 11.6" fully rugged tablet featuring the latest 12th Gen Intel processor and architectural innovations to elevate the user experience.

"Durabook designs devices to meet the demanding needs of field service workers who rely on rugged technology to streamline workflows and improve productivity in even the harshest environments," said Twinhead CEO Fred Kao. "The updated R11 employs the latest technology to meet the ever-changing needs of workforces operating in some of the most demanding sectors, including warehouse, field service, law enforcement, and logistics."

Intel's 13th Gen Core "Raptor Lake" is shaping up to be another leadership desktop processor lineup, with an engineering sample clocking significant increases in gaming minimum framerates over the preceding 12th Gen Core i9-12900K "Alder Lake." Extreme Player, a tech-blogger on Chinese video streaming site Bilibili, posted a comprehensive gaming performance review of an i9-13900K engineering sample covering eight games across three resolutions, comparing it with a retail i9-12900KF. The games include CS:GO, Final Fantasy IX: Endwalker, PUBG, Forza Horizon 5, Far Cry 6, Red Dead Redemption 2, Horizon Zero Dawn, and the synthetic benchmark 3DMark. Both processors were tested with a GeForce RTX 3090 Ti graphics card, 32 GB of DDR5-6400 memory, and a 1.5 kW power supply.

The i9-13900K ES is shown posting performance leads ranging wildly between 1% to 2% in the graphics tests of 3DMark, but an incredible 36% to 38% gain in the CPU-intensive tests of the suite. This is explained not just by increased per-core performance of both the P-cores and E-cores, but also the addition of 8 more E-cores. Although the same "Gracemont" E-cores are used in "Raptor Lake," the L2 cache size per E-core cluster has been doubled in size. Horizon Zero Dawn sees -0.7% to 10.98% increase in frame rates. There are some anomalous 70% frame-rate increases in RDR2, discounting which, we still see a 2-9% increase. FC6 posts modest 2.4% increases. Forza Horizon 5, PUBG, Monster Hunter Rise, and FF IX, each report significant increases in minimum framerates, well above 20%.

In what could be evidence of Intel pulling off a major generational IPC increase, Chinese PC enthusiast Extreme Player, with access to a Core i9-13900K engineering sample (ES), tested the chip on a handful synthetic tests, with the processor yielding significant performance gains over its predecessor, the i9-12900K. The most striking performance number has to be the CPU-Z Bench single-core test, which shows an impressive 9.41 percent increase over that of the i9-12900K.

The i9-13900K packs "Raptor Cove" performance cores, which Intel claims come with a generational IPC increase over the "Golden Cove" P-cores. The 9.4% performance increase could be a result of not just increased IPC, but also higher clock speeds (set at 5.50 GHz, the assumed maximum boost frequency of the retail processor). The multi-threaded CPU-Z Bench sees an incredible 46.34% performance increase. This stems from not just increased performance on the eight P-cores, but also the doubling in E-cores from 8 to 16. The E-core clusters also see a doubling in L2 cache sizes. The story repeats with Cinebench R23, with an incredible 13.53% single-thread performance increase, and a 40.25% multi-threaded performance increase.

TechPowerUp today released the latest version of TechPowerUp GPU-Z. Version 2.47.0 adds support for new GPUs and improves on several fronts. To begin with, it adds support for NVIDIA GeForce GTX 1630, RTX 3050 Laptop, MX570, A1000, A2000, A3000, and other pro-vis GPUs; on the AMD front, it can detect RX 6700 or "Radeon 6700" cards. Support is also added for Intel Core "Alder Lake-H," "Alder Lake-U," and "Alder Lake-HX" processors and their iGPUs.

TechPowerUp GPU-Z 2.47.0 comes with many improvements to the detection of Intel Arc "Alchemist" GPUs. The fake GPU detection was expanded to cover knockoffs based on NVIDIA G98, GT200, and GK104. A workaround was added to fix broken clock-speed detection for AMD GPUs with some recent driver versions this year. Non-LHR reporting of the RTX 3080 12 GB has been fixed. You now have the ability to no longer resume logging on GPU-Z restart, by unchecking a checkbox. Grab GPU-Z from the link below.

DOWNLOAD: TechPowerUp GPU-Z 2.47.0The change-log follows.

New week, new leak, as an engineer sample of Intel's upcoming Raptor Lake based Core i9-13900K has appeared in the infamous Geekbench database. It seems to be one of the ES samples that has been making the rounds over the past few weeks, but this is the first time we get an indication of what the performance might be like. There are no real surprises in terms of the specifications, we're looking at a base clock of 3 GHz, with a boost clock of 5.5 GHz, which has already been reported for these chips. The 24-core, 32-thread CPU was paired with 32 GB of 6400 MHz DDR5 memory and an ASUS ROG Maximus Z690 Extreme motherboard. Unfortunately the test results are reported as invalid, due to "an issue with the timers" on the system.

That said, we can still compare the results with a similar system using a Core i9-12900K on an ASUS ROG Strix Z690-F Gaming board, that's also paired up with 32 GB of 6400 MHz DDR5 memory. The older Alder Lake system is actually somewhat faster in the single core tests where it scores 2,142 points versus 2133 points for the Raptor Lake based system, despite having a maximum frequency of 5.1 GHz. The Raptor Lake system is faster in the multi-core test at 23,701 vs. 21312 points. However, it's no point doing any kind of analysis here, as the Raptor Lake results are all over the place, with it beating the Alder Lake CPU by a significant amount in some tests and losing against it in others, where it shouldn't be falling behind, simply based on the higher clock speed and additional power efficient cores. At least this shows that Raptor Lake is running largely as intended on current 600-series motherboards, so for those considering upgrading to the 13th gen of Intel CPUs, there shouldn't be any big hurdles to overcome.

Intel's next-generation Core "Meteor Lake" processors will debut the new Xe-LPG graphics architecture for its iGPU. A successor to the Xe-LP architecture powering iGPUs since 11th Gen Core "Tiger Lake," the Xe-LPG graphics architecture is tailored for small-scale GPU designs such as iGPUs. It sheds much of the bulk that the Xe-HPG has, which is optimized for discrete GPU designs. A leaked block diagram of "Meteor Lake" describes Xe-LPG as featuring a new "extended gaming mode," new Adaptix power sharing, which is probably a power-management optimization that prioritizes power share to the iGPU; and even more media encode acceleration capabilities.

The Core "Meteor Lake" compute tile will also feature the latest Gaussian Network Accelerator, GNA 3.5, which speeds up AI deep-learning neural net building and training. The chip features a purpose-build VPU (visual processing unit), similar to the ones in mobile SoCs, which improves the device's ability to recognize faces, or even augmented-reality applications. Lastly, with "Meteor Lake," Intel is debuting the new "Crestmont" E-core clusters that introduce an IPC improvement over the "Gracemont" E-cores powering "Alder Lake" and "Raptor Lake."

Intel is preparing to launch its next-generation desktop platform codenamed Rocket Lake-S. According to the presentation held by Intel today in Shenzen, China, we have official information regarding some of the platform features that Raptor Lake is bringing. Starting with memory support, Raptor Lake is still carrying the transitional DDR4 and DDR5 support, as the full swing towards DDR5 is still in progress. Unlike the previous generation Alder Lake, which brought DDR5-4800 support, Raptor Lake's integrated memory controller can drive DDR5 modules with a 5600 MT/s configuration. As DDR4 support remains, it is limited to 3200 MT/s speed.

Interesting information from the leaked slide points out that support for CPU-attached NVMe storage remains PCIe Gen4. While AMD will provide an AM5 socket with CPU-attached NMVe storage on PCIe Gen5 protocol, Intel is taking a step back and holding on to Gen4. The CPU is outputting 16 PCIe Gen5 lanes on its own. Motherboard vendors for the upcoming 700-series boards for Raptor Lake can still provide a PCIe Gen5 NVMe slot; however, it will have to subtract eight Gen5 lanes from the PCI Express Graphics (PEG) slot and route them to NVMe storage. As our testing shows, this will affect GPU's performance by a few percent. AMD's upcoming AM5 platform has no such issues, as the CPU provides both the PEG and CPU-attached NVMe storage with sufficient PCIe Gen5 bandwidth.

AMD is preparing to update its mobile sector with the latest IP in the form of Zen4 CPU cores and RDNA3 graphics. According to Red Gaming Tech, we have specifications of upcoming processor families. First, we have AMD Dragon Range mobile processors representing a downsized Raphael design for laptops. Carrying Zen4 CPU cores and RDNA2 integrated graphics, these processors are meant to power high-performance laptops with up to 16 cores and 32 threads. Being a direct competitor to Intel's Alder Lake-HX, these processors also carry an interesting naming convention. The available SKUs include AMD Ryzen 5 7600HX, Ryzen 7 7800HX, Ryzen 9 7900HX, and Ryzen 9 7980HX design with a massive 16-core configuration. These CPUs are envisioned to run along with more powerful dedicated graphics, with clock speeds of 4.8-5.0+ GHz.

Next, we have AMD Phoenix processors, which take Dragon Range's design to a higher level thanks to the newer graphics IP. Having Zen4 cores, Phoenix processors carry upgraded RDNA3 graphics chips to provide a performance level similar to NVIDIA's GeForce RTX 3060 Max-Q SKU, all in one package. These APUs will come in four initial configurations: Ryzen 5 7600HS, Ryzen 7 7800HS, Ryzen 9 7900HS, and Ryzen 9 7980HS. While maxing out at eight cores, these APUs will compensate with additional GPU compute units with a modular chiplet design. AMD Phoenix is set to become AMD's first chiplet design launching for the laptop market, and we can expect more details as we approach the launch date.

Axiomtek is pleased to introduce the MANO560, an industrial Mini-ITX motherboard featuring the LGA1700 socket for the latest 12th Gen Intel Core processor (codename: Alder Lake S) to boost the performance of AI and IoT applications.

The industrial Mini-ITX motherboard MANO560 is based on the new Intel H610 chipset and features scalable CPU options with the 12th Gen Intel Core i9/i7/i5/i3, Intel Pentium Gold or Intel Celeron processors. While the high performance is assisted by the two DDR4-3200 SO-DIMM with up to 64 GB of memory, it is equipped with one M.2 Key E 2230 for wireless module and one M.2 Key B in which the user can choose between the PCIe x2 signal, the USB 3.2 Gen1 for 3042/3052 5G module or SATA interface for 2242 SSD, making the embedded board much more flexible. Besides, it provides a full-size mini PCIe for wireless modules and a PCIe x16 for graphics cards.

Just hours ago a CPU-Z screenshot of an Intel Raptor Lake ES CPU appeared and the same CPU now appears to have been put through a full battery of benchmark tests, courtesy of Expreview. This upcoming 13th gen Core CPU from Intel is limited to a maximum clock speed of 3.8 GHz and as such, was tested against a Core i9-12900K that was clocked at the same speed, for a fair comparison. Both CPUs were used with an unknown Z690 motherboard, 32 GB of DDR5 5200 MHz memory with unknown timings and a GeForce RTX 3090 Founders Edition graphics card. According to Expreview, the 13th gen CPU is on average around 20 percent faster than the 12th gen CPU, although the extra eight E-Cores might have something to do with that in certain benchmarks.

In Sisoft Sandra 2021 the ES sample is as much as 51.5 percent faster in the double precision floating point test, which is the extreme outlier, but it's ahead by around 15-25 percent in most of the other tests. In several other tests, it's ahead by anything from as little as less than three percent to as much as 25 percent, with more multithreaded types of benchmarks seeing the largest gains, as expected. However, in some of the single threaded tests, Alder Lake is edging out Raptor Lake by 10 percent or more, for example in Pov-Ray and Cinebench. Most of the game tests favour Intel's 12th gen over the 13th gen ES sample, although it's possible that the limited clock speeds are holding back the Raptor Lake CPU. The two are either neck in neck or Alder Lake being ahead with anything from a couple of percent to almost nine percent. Keep in mind that it's still early days and everything from UEFI support to drivers will be improved before Raptor Lake launches later this year. There's also the limited clock speed which is likely to play a significant role in the final performance as well, but this does at least provide a first taste of what's to come. Head over to Expreview for their full set of benchmarks.

One of the biggest dividends of the Arc discrete graphics lineup for Intel is getting to use its own GPUs in its NUC desktops. The next-generation NUC 12 "Serpent Canyon" desktop sees the 11th Gen Core "Tiger Lake" quad-core + RTX 2060 "Turing" combination replaced by advanced 12th Gen Core "Alder Lake" 6P+8E processor, and the Arc "Alchemist" A770M discrete GPU. Intel's choice of mobile versions of "Alchemist" and "Alder Lake" may have to do with not just lower TDP, but possibly also an implementation of the Intel Deep Link feature.

The A770M maxes out the 6 nm ACM-G11 silicon, packing 32 Xe Cores (512 execution units, or 4,096 unified shaders), and has 16 GB of 256-bit GDDR6 memory. When paired with the 14-core "Alder Lake-H" processor, the duo could make for a formidable performance-gaming and creator machine. "Serpent Canyon" also sees the integration of Thunderbolt 4, SDXC UHS-II, Wi-Fi 6E, and 2.5 GbE interfaces, along with a number of USB 3.2 ports. Although its marketing images are leaked to the web on Chinese social media, there's no release date for the thing yet, but it could be just around the corner.

Intel's high-end desktop (HEDT), usually reserved for workstation and enterprise applications, is due for an update, and the company is readying an entire family of updated products. Today, we found a leak of what appears to be an Intel Sapphire Rapids design made for desktops. Called Xeon W5-3433, the CPU appears in the SiSoftware Sandra benchmark database. It carries a configuration of 16 cores and 32 threads and is equipped with 32 MB of L2 cache and 45 MB of L3 cache. Having 2 MB of L2 cache per core suggests that the design is not an Alder Lake variation. This specific SKU is clocked at 1.99 GHz, meaning an early engineering sample.

The Sapphire Rapids HEDT platform is codenamed FishHawk Falls. Intel is supposed to offer Alder Lake-X processors with higher core counts and the FishHawk Falls. Both will be running on the same W790 chipset; however, the Sapphire Rapids implementation will carry more cores in a Xeon package designed for professionals. There was an Ice Lake-X Xeon processor called Xeon W-3335 with 16 cores and 32 threads, meaning that the leaked Xeon W5-3433 is its direct successor.

Intel is preparing to launch its 13th generation of desktop processors codenamed Raptor Lake. Succeeding Alder Lake, the 13th gen design will implement up to eight P-cores with 16 E-cores manufactured on Intel's improved 7+ technology node. Today, we got a performance preview from SiSoftware that has collected SiSoftware Sandra database scores of Intel Core i9-13900 Raptor Lake-S processor. They present an overview of a few benchmarks. Firstly, the SoC features 36 MB of unified L3 cache versus 30 MB in Alder Lake. With DDR5 memory running up to 5600 MT/s and PCIe 5.0, the SoC features the latest IO and memory standards. The big P-cores now lack AVX-512 and feature 2 MB of L2 cache per core. We see 4 MB of L2 cache for a cluster of small E-cores. An exciting addition to E-cores is the AVX/AVX2 support, which is a first for Atom cores.

Regarding testing, the author has collected a few tests that seemed appropriate to compare to the equivalent Alder Lake model. Starting with ALU/FPU tests that benchmark basic arithmetic tasks, Raptor Lake delivered 33% to 50% improvement over Alder Lake. The Raptor Lake design achieved this with 3.7 GHz P-Core and 2.76 GHz E-Core frequency. In vectorized and SIMD tests, the 13th gen design showed only 5% to 8% improvement over the previous generation. For more benchmarks and accurate results, we have to wait for TechPowerUp's test, which will be coming on the release day.

DDR5 memory pricing has been declining faster than expected, with average pricing for modules based on the latest standard dropping by as much as 20% in a month's time. As reported by ComputerBase, pricing for 1 GB of DDR5 has fallen from around €15 by the end of 2021 down to around €5/GB at time of writing. At current pricing, an entry-level, 32 GB DDR5 kit DDR5-4800 memory (JEDEC standard) has fallen from a high of €430 down to a much more palatable €154.

The price decline comes as good news for anyone aiming to upgrade their PC in wake of AMD's Socket AM5 launch for its Zen 4 architecture, which the company has already confirmed will only support the latest RAM standard. AMD itself must be riding the sea of relief, as high DDR5 pricing could significantly shape the company's next-gen platform's value compared to arch-rival Intel, which already offers DDR4 and DDR5 support with its Alder Lake chips. Expectations place the same memory support for the next-gen Raptor Lake platform. Prices for DDR4 memory seem to have hit a bottom, however, as pricing hasn't significantly moved in around six months. Like with all new technologies, expect the price difference to eventually change in favor of DDR5 memory, as manufacturers adjust their outputs towards adoption.

Thermal Grizzly has developed a new Contact Frame designed specifically to fix bending issues present with Intel's latest 12th Gen, Alder Lake CPUs. Developed in partnership with overclocking extraordinaire Der8auer, the new Contact Frame promises to lower operating temperatures on Intel's Alder Lake. According to the company, this improvement is achieved by fixing that platform's independent loading mechanism (ILM), which has been proven to slightly deflect the integrated heatspreader (IHS), reducing its heat transfer capability.

As tested by Igor's Lab, the new contact frame for LGA 1700 reduced the operating temperature of Intel's Core i9-12900K by as much as 10.19 °C - from 70.48 °C without the Contact Frame and towards 60.29 °C after it was installed. The CPU was configured to run popular stress test Prime95, with Small FFT at a fixed 5 GHz frequency on its P-cores. The processor's E-cores were deactivated so as not to compromise the results, while the memory subsystem was run at DDR5-7000. Thermal Grizzly's Contact Frame isn't the only product in this category, and the company is introducing their product at €39.90 for the German and European markets (~$36). Enthusiasts have likely spent more in cooling upgrades that delivered a lesser final operating temperature improvement.

The relatively new handheld gaming console company AYN has recently teased what they claim to be 'The Most Affordable Windows Handhelds Ever Created' with the AYN Loki series. The company has previously released the ARM-based Odin handheld that could run Android and Windows for ARM. The Loki is the company's first Windows handheld launching with five initial variants including a single entry-level Loki Mini model featuring an unspecified Alder Lake U processor and 64 GB of storage costing 299 USD. The next three models each feature the AMD Ryzen 6600U paired with between 64 GB and 512 GB storage coming in at 499 USD to 699 USD. The AYN Loki MAX will feature an AMD Ryzen 6800U paired with 512 GB of storage costing 799 USD.