The leading memory brand Team Group has upgraded the capacities of its industrial DDR5 series memory products, by leveraging its outstanding R&D and product design capabilities, taking the lead in launching a 48 GB module, as well as a lower 24 GB option. The capacity upgrades apply to all types of DDR5 products, including the DDR5 non-ECC U/SO-DIMM, DDR5 ECC U/SO-DIMM class, and DDR5 ECC R-DIMM memory modules. They provide higher capacity for applications using high-performance edge computing, embedded computers, personal workstations, and more.

Current industrial DDR5 memory on the market has a maximum capacity of about 32 GB per module. However, with the development of technologies such as cloud, edge computing, the Internet of Things, and big data, the demand for memory capacity is increasing. Edge computing systems need to process large amounts of data from a variety of sensors and devices and perform complex calculations and analyses that require high memory capacity and performance. To meet this demand, Team Group has made capacity upgrades across its industrial DDR5 memory products, offering new 24 GB and 48 GB modules. They bring more application flexibility and enable users to better handle large data sets, complex simulations, and analysis tasks. The enhanced capacities will significantly increase the performance and processing power of edge computing systems, providing users with the ability to run various applications and algorithms more efficiently.

XPG, the e-sports arm of ADATA, the world's leading memory brand, specializes in creating high-performance and stunningly designed e-sports products for e-sports enthusiasts, technology-minded gamers, and overclockers. XPG today announced the launch of LANCER BLADE RGB DDR5 and LANCER BLADE DDR5 memory, emphasizing its low-profile heatsink design, freeing motherboard assembly from heatsink height, and providing a profile that is perfect for small cases with limited space. The XPG LANCER BLADE series includes two models with top speeds of 6000MT/s and 6400MT/s.

By utilizing high-quality carefully selected Hynix chips, these memory modules are low latency and easy to overclock while allowing gamers to enable a hassle-free speed boost with one-click overclocking. At the same time, The XPG LANCER BLADE series supports Intel XMP 3.0 and AMD EXPO and is compatible with the latest Intel and AMD platforms, ensuring excellent memory stability and a smoother operating experience when multitasking or running large-scale applications. In addition, the XPG LANCER BLADE series adopts a high price-performance strategy, combined with excellent operation and quality, it is definitely the foremost choice when gamers upgrade their systems.

The "Granite Rapids-D" line of upcoming processors are designed for data-center servers on the edge. These non-socketed processors come in BGA4368 packages. The company is reportedly readying at least two key variants of these chips based on core-counts and memory channels. The "Granite Rapids-D" HCC (high core-count) is an MCM of a "Granite Rapids" LCC (low-core count) compute tile, and a single I/O tile with a 4-channel DDR5 memory interface.

The "Granite Rapids-D" XCC (extreme core-count) has one "Granite Rapids" HCC (high core-count) compute tile, and two I/O tiles that make up the chip's 8-channel DDR5 memory interface. A probable reason for the confusion between LCC, HCC, and XCC terminologies for "Granite Rapids-D" is because the compute tiles are carried over from the main "Granite Rapids-SP" server processors, where they mean different things for the core-counts of mainline servers.

Scientists at the Tokyo Institute of Technology have developed a new type of stacked or 3D DRAM that the researchers call Bumpless Build Cube 3D or BBCube 3D, which relies on Through Silicon Vias or TSVs to connect the DRAM dies. This is a different approach to HBM which relies on micro bumps to connect the layers together and the Japanese scientists are saying that their bumpless wafer-on-wafer solution should allow not only for an easier manufacturing process, but more importantly, improved cooling, as the TSVs can channel the heat from the DRAM dies down into whatever substrate the BBCube 3D stack is finally mounted onto.

If that wasn't enough, the researchers believe that BBCube 3D will be able to deliver higher speeds than HBM courtesy of a combination of the TSVs being relatively short and "high-density signal parallelism". BBCube 3D is expected to deliver up to a 32 fold increase in bandwidth compared to DDR5 memory and a four fold increase compared to HBM2E memory, while at the same time, drawing less power. The research paper goes into a lot more details for those interested at taking a closer look at this potentially revolutionary shift in DRAM assembly. However, the question that remains unanswered is if this will end up as a real world product some time in the near future, which is all based on how manufacturable BBCube 3D memory will be.

BIOSTAR, a leading manufacturer of motherboards, graphics cards, and storage devices, announces the best-performing business and casual motherboards for Intel 12/13th gen core processors in 2023. Tailored to cater to a wide range of users, from office applications to system integration businesses and home entertainment, the B760MX2-E, B760MZ-E PRO, B760MX2-E D4, and B760MX2-E PRO D4 motherboards pack an impressive suite of features and functionality ready to perform at the highest standard.

Powered by Intel's 12th and 13th-generation processors, these motherboards provide a seamless computing experience with higher performance, improved data integrity, and lower power consumption, setting new benchmarks in their respective segments. With B760MX2-E, B760MZ-E PRO motherboards supporting DDR5, and B760MX2-E D4, B760MX2-E PRO D4 motherboards supporting DDR4 memory, they provide exceptional memory support and performance. The B760MZ-E PRO and the B760MX2-E PRO D4 motherboards support up to 128 GB of memory while the B760MX2-E and the B760MX2-E D4 motherboards support up to 64 GB of memory capacity, providing users ample choice when it comes to system performance.

TrendForce reports that continued production cuts by DRAM suppliers have led to a gradual quarterly decrease in overall DRAM supply. Seasonal demand, on the other hand, is helping to mitigate inventory pressure on suppliers. TrendForce projects that the third quarter will see the ASP for DRAM converging towards a 0~5% decline. Despite suppliers' concerted efforts, inventory levels persistently remain high, keeping prices low. While production cutbacks may help to curtail quarterly price declines, a tangible recovery in prices may not be seen until 2024.

PC DRAM: The benefits of consolidated production cuts on DDR4 by the top three suppliers are expected to become evident in the third quarter. Furthermore, inventory pressure on suppliers has been partially alleviated due to aggressive purchasing by several OEMs at low prices during 2Q23. Evaluating average price trends for PC DRAM products in 3Q23 reveals that DDR4 will continue to remain in a state of persistent oversupply, leading to an expected quarterly price drop of 3~8%. DDR5 prices—influenced by suppliers' efforts to maintain prices and unmet buyer demand—are projected to see a 0-5% quarterly decline. The overall ASP of PC DRAM is projected to experience a QoQ decline of 0~5% in the third quarter.

G.SKILL International Enterprise Co., Ltd., the world's leading brand of performance overclock memory and PC components, is excited to announce a new white colored edition of its flagship Trident Z5 RGB series DDR5 memory, featuring extreme overclocked speeds of up to DDR5-8200 at 24 GB x 2 kit capacity.

The White Choice of Overclocked Performance DDR5 Memory
The new white version of the Trident Z5 RGB series boasts a sleek white aluminium heat spreader and features a black brushed-aluminium strip inset across the center, providing PC enthusiasts an ideal high-performance overclocked memory kit in a white themed PC build.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced its latest foundry technology innovations and business strategy at the 7th annual Samsung Foundry Forum (SFF) 2023. Under the theme "Innovation Beyond Boundaries," this year's forum delved into Samsung Foundry's mission to address customer needs in the artificial intelligence (AI) era through advanced semiconductor technology.

Over 700 guests, from customers and partners of Samsung Foundry, attended this year's event, of which 38 companies hosted their own booths to share the latest technology trends in the foundry industry.

Hardware leaker MEGAsizeGPU has uploaded photos of unreleased G.Skill DIMMs—they claim that the leaked hardware "is the world's first 24G*2 DDR5 expo module: F5-6000J4048F24GX2-TZ5NR." The next-gen Trident Z5 memory is said to be rated for a 6000 MT/s data transfer rate, and close-up shots of labels on heatsinks point to the sample units being non-binary 24 GB DDR5 memory modules that can support EXPO profiles for AMD's Ryzen 7000-series CPUs. MEGAsizeGPU claims that "6000 MHz is the sweetspot for Ryzen" (AM5).

Off-screen captures show a PC system booting up in DDR5-6000 mode—within a Windows OS environment, CPU-Z demonstrates that these new Trident Z5 modules are based on SpecTek-made 24Gb DRAM ICs (instead of binary 16Gb)—SpecTek is a division working under Micron Technology. G.SKILL will likely be selling non-binary Z5 memory in pairs, so we expect to see matched 48 GB dual-channel kits popping up on the market soon. MEGAsizeGPU did not mention anything about pricing or availability. Kingston debuted its own non-binary memory offerings at Computex 2023, but presentation material on hand did not mention whether their new models support AMD's Extended Profiles for Overclocking (EXPO).

Leading storage device brand, Team Group, is releasing its industrial wide temperature storage product series, ULTRA, in view of the fast-developing electric vehicle market. Consumer products typically operate within a temperature range of 0-70℃. However, industrial products are designed to withstand harsh environments and operate within a temperature range of -40-85℃. Because of the extreme temperature differences in applications such as vehicle computer systems, storage products with higher tolerance and compliance with automotive temperature grades are required. In response to the developments in EVs, Team Group has launched a new storage product series that includes an SSD and memory module and can handle temperatures of up to 105℃, the highest in the industry. The company is targeting the vehicle, fanless embedded, and rugged computer markets.

Team Group's industrial ULTRA wide-temperature storage product series uses Major Grade high-quality ICs and patented testing and grading technology (Taiwan Invention Patent No. I751093; US Invention Patent No. US11488679) and ultra-thin graphene cooling technology (Taiwan Invention Patent No. I703921; US Invention Patent No. US11051392B2), allowing stable operation in harsh temperatures. In addition, the ULTRA wide-temperature storage product series has passed the ISO-16750 Road Vehicles (environmental conditions and testing for electrical and electronic equipment in road vehicles) - 5.1.2 high-temperature 105℃ verification test. Both products also meet standards for military-grade impact resistance (MIL-STD-202G, MIL-STD-883K) and shock resistance (MIL-STD810G), guaranteeing their stability and durability. Whether it's maintaining data security or overcoming extreme conditions in automotive and industrial applications, the ULTRA storage product series will fully satisfy your needs.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, proudly announces a groundbreaking achievement with the Z790 AORUS TACHYON motherboard. Esteemed overclocker HiCookie has once again pushed the limits of performance, breaking the DDR5 memory overclocking world record. The Z790 AORUS TACHYON has achieved an astonishing DDR5-11254 frequency, surpassing all previous records. This remarkable achievement reinforces GIGABYTE's commitment to providing cutting-edge technology for overclocking enthusiasts.

The GIGABYTE Z790 AORUS TACHYON is a motherboard designed exclusively for overclocking enthusiasts, offering exceptional capabilities with its advanced all-digital power design. Through the optimization of memory trace and the implementation of Shielded Memory Routing, the Z790 AORUS TACHYON achieves an impressive DDR5-11254 frequency, showcasing its advanced design and unmatched performance. The motherboard also features an integrated overclocking toolkit, equipped with convenient shortcut keys, toggle switches, and voltage detection functions, empowering overclockers to effortlessly push boundaries.

To help bridge the growing gap between modern systems and the legacy technology still in use around the world, global industrial computing specialists, OnLogic (www.onlogic.com), have released the Helix 511 Edge Computer. Designed for use in manufacturing, automation, energy management, and other edge and IoT applications, the Helix 511 easily interfaces with on-site systems thanks to a broad selection of modern and legacy connectivity options.

"We frequently have conversations with customers who are struggling to update their technology infrastructure simply because they can't connect existing systems to newer, more powerful and more capable devices," says OnLogic Product Manager, Hunter Golden. "The embedded computing space has traditionally lagged behind when it comes to adopting new technologies. We want to shift that paradigm while still allowing innovators to access and exchange data with their existing equipment. In many cases, you don't need to rip and replace everything, you just need a Helix 511."

Simply NUC, Inc, a leading mini computer solutions company, today announced a new Simply NUC designed and branded mini PC product family called Moonstone. Equipped with the latest AMD Ryzen 7000 processors in a compact 4x4 design with an innovative cooling solution, Moonstone delivers top-tier computing performance for a wide range of usages. Supporting up to 64 GB of DDR5-4800 high-speed RAM and up to 16 TB of storage, Moonstone will increase your computing output while keeping a minimal footprint on both your desk and energy bill.

"Perfect for working or gaming, we saw an opportunity to set the new standard of innovation-driven mini PC performance," said Aaron Rowsell, Simply NUC co-CEO, "Moonstone is the highest performing 4x4 ever launched."

Razer today launched the 2023 Razer Blade 14. This segment-disruptive 14-inch notebook packs gaming performance comparable to much thicker enthusiast-class notebooks; in a thin-and-light form-factor comparable to business/commercial notebooks. Across the market landscape, the Razer Blade 14 is designed to compete with the Apple MacBook Pro of a comparable screen size. Razer is timing launch of this notebook with that of the AMD Ryzen 7040HS "Phoenix" processor, because it's based on one. The notebook measures 31 cm x 22.8 cm x 1.79 cm (WxDxH with lid closed), and is 11.5% thinner than the 2022 Razer Blade 14. It's also 9% lighter, at 1.83 kg. Despite its size, the notebook packs a 68.1 Wh battery, which when paired with the rather high-end hardware, offers up to 10 hours of productivity.

Under the hood, the Razer Blade 14 (2023) rocks an AMD Ryzen 9 7940HS "Phoenix" processor, with an 8-core/16-thread "Zen 4" CPU, Ryzen AI accelerator, and Radeon 780M (12 CU) integrated graphics. The main graphics muscle, though, is the GeForce RTX 4070 Ada with 140 W TGP. The notebook provides the ability to switch between the discrete- and integrated graphics. The notebook also comes with two DDR5 SO-DIMM slots for up to 64 GB of socketed DDR5 memory; and an M.2-2280 Gen 4 NVMe slot for the main storage, a Gen 4 SSD. The WLAN module is also socketed, and offers Wi-Fi 6E and Bluetooth 5.2. The display is a 14-inch, 16:10 aspect-ratio QHD+ (2560 x 1600 pixels) unit, with 240 Hz refresh rate, and 3 ms response time. The display has 500 nits maximum brightness.

Supermicro, Inc., a Total IT Solution Provider for Cloud, AI/ML, Storage, and 5G/Edge, is announcing that its entire line of H13 AMD based-systems is now available with support for 4th Gen AMD EPYC processors, based on "Zen 4c" architecture, and 4th Gen AMD EPYC processors with AMD 3D V-Cache technology. Supermicro servers powered by 4th Gen AMD EPYC processors for cloud-native computing, with leading thread density and 128 cores per socket, deliver impressive rack density and scalable performance with energy efficiency to deploy cloud native workloads in more consolidated infrastructure. These systems are targeted for cloud operators to meet the ever-growing demands of user sessions and deliver AI-enabled new services. Servers featuring AMD 3D V-Cache technology excel in running technical applications in FEA, CFD, and EDA. The large Level 3 cache enables these types of applications to run faster than ever before. Over 50 world record benchmarks have been set with AMD EPYC processors over the past few years.

"Supermicro continues to push the boundary of our product lines to meet customers' requirements. We design and deliver resource-saving, application-optimized servers with rack scale integration for rapid deployments," said Charles Liang, president, and CEO of Supermicro. "With our growing broad portfolio of systems fully optimized for the latest 4th Gen AMD EPYC processors, cloud operators can now achieve extreme density and efficiency for numerous users and cloud-native services even in space-constrained data centers. In addition, our enhanced high performance, multi-socket, multi-node systems address a wide range of technical computing workloads and dramatically reduce time-to-market for manufacturing companies to design, develop, and validate new products leveraging the accelerated performance of memory intensive applications."

Synopsys, Inc. today announced an expanded agreement with Samsung Foundry to develop a broad portfolio of IP to reduce design risk and accelerate silicon success for automotive, mobile, high-performance computing (HPC) and multi-die designs. This agreement expands Synopsys' collaboration with Samsung to enhance the Synopsys IP offering for Samsung's advanced 8LPU, SF5, SF4 and SF3 processes and includes Foundation IP, USB, PCI Express, 112G Ethernet, UCIe, LPDDR, DDR, MIPI and more. In addition, Synopsys will optimize IP for Samsung's SF5A and SF4A automotive process nodes to meet stringent Grade 1 or Grade 2 temperature and AEC-Q100 reliability requirements, enabling automotive chip designers to reduce their design effort and accelerate AEC-Q100 qualification. The auto-grade IP for ADAS SoCs will include design failure mode and effect analysis (DFMEA) reports that can save months of development effort for automotive SoC applications.

"Our extensive co-optimization efforts with Samsung across both EDA and IP help automotive, mobile, HPC, and multi-die system architects cope with the inherent challenges of designing chips for advanced process technologies," said John Koeter, senior vice president of product management and strategy for IP at Synopsys. "This extension of our decades-long collaboration provides designers with a low-risk path to achieving their design requirements and quickly launching differentiated products to the market."

ASRock Rack, the leading innovative server company, today announced its support of 4th Gen AMD EPYC processors with AMD "Zen 4c" architecture and 4th Gen AMD EPYC processors with AMD 3D V-Cache technology, as well as the expansion of their new products ranging from high-density storage, GPU, multi-nodes servers all for the new AMD processors.

"4th Gen AMD EPYC processors offer the highest core density of any x86 processor in the world and will deliver outstanding performance and efficiency for cloud-native workloads," said Lynn Comp, corporate vice president, Server Product and Technology Marketing, AMD. "Our latest family of data center processors allow customers to balance workload growth and flexibility with critical infrastructure consolidation mandates, enabling our customers to do more work, with more energy efficiency at a time when cloud native computing is transforming the data center."

TYAN, an industry-leading server platform design manufacturer and a subsidiary of MiTAC Computing Technology Corporation, today announced availability of high-performance server platforms supporting 4th Gen AMD EPYC processor for growing cloud native environments and 4th Gen AMD EPYC processors with AMD 3D V-Cache technology for technical computing applications.

"Data centers prioritize sustainability, offering an opportunity to improve efficiency and meet goals," said Eric Kuo, Vice President of MiTAC Computing Technology Corporation's Server Infrastructure Business Unit. "TYAN's server platforms, powered by 4th Gen AMD EPYC processors, contribute to environmental sustainability through power-efficient, high-performance solutions. Our leading workload performance enables efficient scale-out cloud-native workloads, achieving more with less power consumption."

In addition to the Ryzen PRO 7045 series mobile processors for commercial notebooks, AMD announced the Ryzen PRO 7000 processors for commercial desktops. These are desktops deployed by medium-large businesses and enterprises in their offices, which remain connected to the enterprise network at all times, and require remote management and security features. This particular segment is addressed by Intel using its 13th Gen Core vPro processors. The Ryzen PRO 7000 processors are based on the Socket AM5 platform, which is ready for next-generation connectivity. AMD is also introducing a new motherboard chipset to go with these processors, although they are compatible with consumer AMD 600-series chipset motherboards.

The Ryzen PRO 7000 series processor models being launched today are based on the "Raphael" MCM, which depending on the model, comes with one or two 5 nm "Zen 4" CCDs, and a 6 nm I/O die. What makes these processors especially formidable compared to past attempts by AMD at commercial desktop processors, is that while the previous-generation chips were based on monolithic APU dies for their integrated graphics; these chips are based on the full-featured MCM for this generation, with integrated graphics as standard. AMD's decision to make integrated graphics standard should prove particularly helpful for adoption in the commercial desktop space.

YEYIAN Gaming, a leading global designer and manufacturer of innovative pre-built gaming PCs, peripherals, and computer components, is thrilled to announce the launch of four new RTX 4060 Ti GPU gaming desktop PC models: YARI II 27F0B-46T1N, YARI II 24F0B-46T1N, SHOGE 560XB-46T1U, and SHOGE 240FOB-46T1U. These models are part of the YARI II and SHOGE series, designed to deliver unparalleled gaming performance and reliability for content creators and pro gamers.

Four gaming desktops are powered by the latest NVIDIA GeForce RTX 4060 Ti graphics cards, which are based on the ultra-efficient NVIDIA Ada Lovelace architecture and offer an immersive, AI-accelerated gaming experience, including upgraded ray tracing and DLSS 3 technologies. The gaming desktops also feature the best-in-class components for both Intel and AMD platforms, as well as Core i7 and AMD Ryzen 5 processors, the NVMe M.2 SSDs, the DDR5/DDR4 memory modules, and come with Windows 11 Home pre-installed. Cooling performance is enhanced by RGB illuminated system fans and CPU AIO water-cooling for excellent system thermal performance under the most demanding of system loads.

A SemiAnalysis report sheds light on just how much smaller the "Zen 4c" CPU core is compared to the regular "Zen 4." AMD's upcoming high core-count enterprise processor for cloud data-center deployments, the EPYC "Bergamo," is based on the new "Zen 4c" microarchitecture. Although with the same ISA as "Zen 4," the "Zen 4c" is essentially a low-power, lite version of the core, with significantly higher performance/Watt. The core is physically smaller than a regular "Zen 4" core, which allows AMD to create CCDs (CPU core dies) with 16 cores, compared to the current "Zen 4" CCD with 8.

The 16-core "Zen 4c" CCD is built on the same 5 nm EUV foundry node as the 8-core "Zen 4" CCD, and internally features two CCX (CPU core complex), each with 8 "Zen 4c" cores. Each of the two CCX shares a 16 MB L3 cache among the cores. The SemiAnalysis report states that the dedicated L2 cache size of the "Zen 4c" core remains at 1 MB, just like that of the regular "Zen 4." Perhaps the biggest finding is their die-size estimation, which puts the 16-core "Zen 4c" CCD just 9.6% larger in die-area, than the 8-core "Zen 4" CCD. That's 72.7 mm² per CCD, compared to 66.3 mm² of the regular 8-core "Zen 4" CCD.

Micron Technology, Inc., (Nasdaq: MU) today announced volume production availability of high-capacity 96 GB DDR5 RDIMMs in speeds up to 4800MT/s, which have double the bandwidth compared to DDR4 memory. By unlocking the next level of monolithic technology, the integration of Micron's high-density memory solutions empowers artificial intelligence (AI) and in-memory database workloads and eliminates the need for costly die stacking that also adds latency. Micron's 96 GB DDR5 RDIMM modules are qualified with 4th Gen AMD EPYC processors. Additionally, the Supermicro 8125GS - an AMD-based system - includes the Micron 96 GB DDR5 modules and is an excellent platform for high-performance computing, artificial intelligence and deep learning training, and industrial server workloads.

"Delivering high-capacity memory solutions that enable the right performance for compute-intensive workloads is essential to Micron's role as a leading memory innovator and manufacturer. Micron's 96 GB DDR5 DRAM module establishes a new optimized total cost of ownership solution for our customers," stated Praveen Vaidyanathan, vice president and general manager of Micron's Compute Products Group. "Our collaboration with a flexible system provider like Supermicro leverages each of our strengths to provide customers with the latest memory technology to address their most challenging data center needs."
"Supermicro's time-to-market collaboration with Micron benefits a wide variety of key customers," said Don Clegg, senior vice president, Worldwide Sales, Supermicro. "Micron's portfolio of advanced memory and storage products, aligned with Supermicro's broad server and storage innovations deliver validated, tested, and proven solutions for data center deployments and advanced workloads."

Innodisk has the right idea about how to do PCIe Gen 5 NVMe SSDs—to ditch the M.2 form-factor, and make them PCIe add-in cards. This would remove the need for cartoonishly disproportionate cooling solutions with high-pitched 20 mm fans; and rather allow SSD designers to use cooling solutions resembling those of graphics cards. Gen 5 NVMe controllers have a TDP of around 15 W, or roughly similar to that of a motherboard chipset. The M.2-2280 form-factor is tiny for the deployment of a sufficiently large heatsink, and so SSD designers are resorting to active cooling, using 20 mm fans that don't sound pleasant. Most single-slot VGA cooling solutions can make short work of 15 W of heat while being much quieter, some even fanless.

The Innodisk 5TG-P AIC SSD uses a PCIe Gen 5 + NVMe 2.0 SSD controller with a large passive heatsink, a PCI-Express 5.0 x4 host interface, and 32 TB of capacity. The drive runs entirely on slot power, and besides the 3D TLC NAND flash, uses a large DDR4 DRAM cache. The company claims sequential transfer speeds of up to 13 GB/s in either direction. Innodisk is targeting the PCIe 5TG-P at workstation and HEDT use-cases. The company is building them in server-relevant form-factors such as U.2 and E.1S. A CDM screenshot shows 13.62 GB/s sequential reads, with 11.55 GB/s sequential writes.

Schenker XMG also unveiled the new PRO 16 Studio workstation laptop at the Computex 2023 event, which will be equipped with an Intel Core i9-13900H CPU and up to an NVIDIA GeForce RTX 4070. In addition, the company is announcing the new WORK Base series and Vision-series laptops that are available under the Schenker brand, introducing new form-factors and bringing several other updates.

The new XMG Pro 16 Studio promises to be quite a versatile workstation laptop aimed at content creators, using a 16:10 aspect ratio screen, and packing some serious power with Intel's Core i9-13900H CPU and up to an NVIDIA GeForce RTX 4070 graphics card, as well as two DDR5 slots with DDR5-5200 support, and Thunderbolt 4. The XMG Pro 16 Studio also comes with NVIDIA Studio certification. Schenker also showed the efficient vapor chamber cooling that will be used in the XMG Pro 16 Studio. It also brings several upgrades compared to the current XMG Focus 16 laptop, which it can be compared to, at least performance-wise, including an additional USB-C power delivery, a Windows Hello camera, 2.5 Gbit LAN, longer battery life, and a slimmer aluminium body. Schenker notes that the XMG PRO 16 Studio should be available in Europe in late July or early August.

Essencore KLEVV brought in a formidable lineup of new PCIe Gen 5 NVMe SSDs and DDR5 memory for gamers and overclockers, at the 2023 Computex. The lineup is led by the KLEVV CRAS V RGB series of DDR5 memory that comes in high-end speeds of DDR5-6000 (30-36-36-76 @ 1.35 V), DDR5-6400 (32-38-38-78 @ 1.35 V), DDR5-7200 (34-44-44-84 @ 1.40 V), DDR5-7600 (36-46-46-86 @ 1.40 V), and DDR5-8000 (38-48-48-128 @ 1.55 V). These modules feature both Intel XMP 3.0 and AMD EXPO SPD profiles. The KLEVV BOLT V series form the company's mid-range, offering speeds of DDR5-6000 (30-36-36-76 @ 1.35 V), DDR5-6400 (32-38-38-78 @ 1.35 V), and DDR5-6800 (34-40-40-80 @ 1.35 V). Both XMP 3.0 and EXPO are to be found even with these modules. The company interestingly also has standard modules for DDR5-4800 and DDR5-5600, which make do with just 1.1 V. We also spied KLEVV's odd-capacity 24 GB and 48 GB CRAS V RGB modules.

The storage lineup for Essencore is led by the KLEVV CRAS C950 PCIe Gen 5 NVMe SSD, and the CRAS C910 Gen 4 SSD. The CRAS C950 comes in 1 TB, 2 TB, and 4 TB capacities, and uses a Phison E26-series controller paired with 3D TLC NAND flash. The 1 TB variant offers up to 11.5 GB/s sequential reads, with up to 8.5 GB/s sequential writes, while the 2 TB and 4 TB models do up to 12 GB/s sequential reads, with up to 11 GB/s sequential writes. The drive uses a chunky passive aluminium heatsink to keep cool. The CRAS C910, on the other hand, comes both as a bare drive (without heatsink), and as the CRAS C910 RGB, where it features a heatsink with an RGB diffuser. The drive uses an InnoGrit IG5220 controller, comes in capacities of up to 1 TB, and offers speeds of up to 5 GB/s sequential reads, with up to 4.8 GB/s sequential writes.