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Supermicro Accelerates Performance of 5G and Telco Cloud Workloads with New and Expanded Portfolio of Infrastructure Solutions

Supermicro, Inc. (NASDAQ: SMCI), a Total IT Solution Provider for AI, Cloud, Storage, and 5G/Edge, delivers an expanded portfolio of purpose-built infrastructure solutions to accelerate performance and increase efficiency in 5G and telecom workloads. With one of the industry's most diverse offerings, Supermicro enables customers to expand public and private 5G infrastructures with improved performance per watt and support for new and innovative AI applications. As a long-term advocate of open networking platforms and a member of the O-RAN Alliance, Supermicro's portfolio incorporates systems featuring 5th Gen Intel Xeon processors, AMD EPYC 8004 Series processors, and the NVIDIA Grace Hopper Superchip.

"Supermicro is expanding our broad portfolio of sustainable and state-of-the-art servers to address the demanding requirements of 5G and telco markets and Edge AI," said Charles Liang, president and CEO of Supermicro. "Our products are not just about technology, they are about delivering tangible customer benefits. We quickly bring data center AI capabilities to the network's edge using our Building Block architecture. Our products enable operators to offer new capabilities to their customers with improved performance and lower energy consumption. Our edge servers contain up to 2 TB of high-speed DDR5 memory, 6 PCIe slots, and a range of networking options. These systems are designed for increased power efficiency and performance-per-watt, enabling operators to create high-performance, customized solutions for their unique requirements. This reassures our customers that they are investing in reliable and efficient solutions."

Intel CEO Discloses TSMC Production Details: N3 for Arrow Lake & N3B for Lunar Lake

Intel CEO Pat Gelsinger engaged with press/media representatives following the conclusion of his IFS Direct Connect 2024 keynote speech—when asked about Team Blue's ongoing relationship with TSMC, he confirmed that their manufacturing agreement has advanced from "5 nm to 3 nm." According to a China Times news article: "Gelsinger also confirmed the expansion of orders to TSMC, confirming that TSMC will hold orders for Intel's Arrow and Lunar Lake CPU, GPU, and NPU chips this year, and will produce them using the N3B process, officially ushering in the Intel notebook platform that the outside world has been waiting for many years." Past leaks have indicated that Intel's Arrow Lake processor family will have CPU tiles based on their in-house 20A process, while TSMC takes care of the GPU tile aspect with their 3 nm N3 process node.

That generation is expected to launch later this year—the now "officially confirmed" upgrade to 3 nm should produce pleasing performance and efficiency improvements. The current crop of Core Ultra "Meteor Lake" mobile processors has struggled with the latter, especially when compared to rivals. Lunar Lake is marked down for a 2025 launch window, so some aspects of its internal workings remain a mystery—Gelsinger has confirmed that TSMC's N3B is in the picture, but no official source has disclosed their in-house manufacturing choice(s) for LNL chips. Wccftech believes that Lunar Lake will: "utilize the same P-Core (Lion Cove) and brand-new E-Core (Skymont) core architecture which are expected to be fabricated on the 20A node. But that might also be limited to the CPU tile. The GPU tile will be a significant upgrade over the Meteor Lake and Arrow Lake CPUs since Lunar Lake ditches Alchemist and goes for the next-gen graphics architecture codenamed "Battlemage" (AKA Xe2-LPG)." Late January whispers pointed to Intel and TSMC partnering up on a 2 nanometer process for the "Nova Lake" processor generation—perhaps a very distant prospect (2026).

AMD Ryzen 7 8700GE Engineering Sample Compared to Standard 8700G APU

Last week, AMD's Ryzen 8000GE desktop APU lineup appeared online—four lower power (TDP of 35 W) SKUs are set to join the already released 65 W TDP AM5 "Hawk Point" family. GucksTV has acquired a flagship 8000GE model, albeit in engineering sample form—a Hong Kong-based Ebay Store lists "AMD Ryzen 7 8700GE ES Tray" processors. At the time of writing only one unit remains in stock, priced at $298.99 with the option for free international delivery. The "hugohk" shop appears to specialize in supplying all sorts of Team Red engineering sample CPUs. GucksTV's German language video review pitches the Ryzen 7 8700GE engineering sample against the finalized retail release Ryzen 7 8700 APU.

AMD has not made any official release date announcements regarding the leaked Ryzen 8000GE range, but VideoCardz believes that "expectations are high that these variants will hit the market soon through system integrators." The GucksTV comparison video shows that: "On average, the single-core of 8700GE performance drops by 5%, while multi-core is 17% below 8700G. For graphics, that's a 23% average drop in performance while requiring 52% less power." The reviewer noted that his engineering sample was not allowing access to memory OC profiles, until a motherboard BIOS update was implemented (most likely via Beta firmware)—granting 6400 MT/s instead of the normal JEDEC rate of 5200 MT/s. The test platform utilized an ASRock A620I Lightning WiFi Mini-ITX mainboard—finalized Ryzen 7 8700GE APUs could be ideal candidates for usage in quiet/low temperature compact form factor systems.

Arm Launches Next-Generation Neoverse CSS V3 and N3 Designs for Cloud, HPC, and AI Acceleration

Last year, Arm introduced its Neoverse Compute Subsystem (CSS) for the N2 and V2 series of data center processors, providing a reference platform for the development of efficient Arm-based chips. Major cloud service providers like AWS with Graviton 4 and Trainuium 2, Microsoft with Cobalt 100 and Maia 100, and even NVIDIA with Grace CPU and Bluefield DPUs are already utilizing custom Arm server CPU and accelerator designs based on the CSS foundation in their data centers. The CSS allows hyperscalers to optimize Arm processor designs specifically for their workloads, focusing on efficiency rather than outright performance. Today, Arm has unveiled the next generation CSS N3 and V3 for even greater efficiency and AI inferencing capabilities. The N3 design provides up to 32 high-efficiency cores per die with improved branch prediction and larger caches to boost AI performance by 196%, while the V3 design scales up to 64 cores and is 50% faster overall than previous generations.

Both the N3 and V3 leverage advanced features like DDR5, PCIe 5.0, CXL 3.0, and chiplet architecture, continuing Arm's push to make chiplets the standard for data center and cloud architectures. The chiplet approach enables customers to connect their own accelerators and other chiplets to the Arm cores via UCIe interfaces, reducing costs and time-to-market. Looking ahead, Arm has a clear roadmap for its Neoverse platform. The upcoming CSS V4 "Adonis" and N4 "Dionysus" designs will build on the improvements in the N3 and V3, advancing Arm's goal of greater efficiency and performance using optimized chiplet architectures. As more major data center operators introduce custom Arm-based designs, the Neoverse CSS aims to provide a flexible, efficient foundation to power the next generation of cloud computing.

Intel Meteor Lake Linux Patches Set to Optimize Default Power Modes

Phoronix has spotted intriguing new Linux kernel patches for Intel Core Ultra "Meteor Lake" processors—the Monday morning notes reveal in-house software engineers are implementing default power profile adjustments. Meteor Lake CPUs have been operating on a default "balanced_performance" mode since their December 2023 launch—Linux adjustments will affect the processor's Energy Performance Preference (EPP) under Linux (similar to Windows Power Plans). Michael Larabel (Phoronix head honcho) laid out some history: "We've seen EPP overrides/tuning in the past within the Intel P-State driver for prior generations of Intel processors and this is much the same here. The ACPI EPP value is typically a range from 0 to 255 for indicating the processor/system power to performance preference."

He continued onto present day circumstances: "To date though the Intel P-State EPP override/tuning has been focused on the default "balanced_performance" mode while the first patch (from Monday) allows for model-specific EPP overrides for all pre-defined EPP strings. The second patch then goes ahead and updates the EPP values for Meteor Lake so that the balanced_performance default is now treated as 115 rather than 128 and the "performance" EPP is set to 16 rather than 0." Larabel is hopeful that a public release will coincide with the "upcoming Linux v6.9 cycle." Intel software engineers reckon that their tweaks/overrides have produced higher performance results—for "small form factor devices"—while reducing CPU temperatures and thermal throttling. Meteor Lake is considered to be quite energy inefficient when compared to the closest mobile processor architectures from AMD and Apple. Team Blue's next-gen Arrow Lake family is expected to launch later this year, but the current crop of CPUs require a bit of TLC and optimization in the meantime.

NBROS CPU and M.2 SSD Physical Display Stands Available to Pre-order in Japan

PC hardware exhibitionists will pleased to discover that NBROS—a Japanese DIY parts specialist—is about to release display stands for CPUs and M.2 SSDs. News outlets were alerted to new retail listings on Yodobashi.com by an ever trusty internet sleuth: momomo_us. The CPU display stand (NB-CPU-DP07) and M.2 SSD display stand (NB-M2SSD-DP06) models are available to purchase, although the shipping date appears to be February 29—implying that you can only pre-order at this stage in time. The made-in-Japan CPU stand is priced at ¥1850 (~$12.34) including VAT, while the M.2-oriented display piece comes in at ¥2180 (~$14.54)—both offered with free delivery options.

The NBROS NB-CPU-DP07 display stand is formed of black-painted iron plating, with a stated thickness of 1.6 mm—overall dimensions seem to be 65 x 65 x 50 mm, and it weighs roughly 80 grams according to the Yodobashi listing. The display surface dimensions are not documented, but accompanying photos indicate that all sorts of CPU footprints are supported—including EPYC and Xeon profiles. The retail package bundles in a few helpful extras: a suction pad, rubber feet and an instruction manual. The NB-M2SSD-DP06 model is a larger and heftier prospect, with 85 x 100 x 95 mm dimensions and an approximate weight of 250 g. The NBROS 1.6 mm thick metal plate construction is once again employed, but the NB-M2SSD-DP06's accessory pack differs slightly—you get a set of mounting screw instead of a suction pad. The chunkiest and most robust M.2 2280 designs can be fastened onto its display stand.

Intel Xeon "Clearwater Forest" CPUs Could Utilize Direct 3D Stacking Technology

Pat Gelsinger—CEO of Intel Corporation—happily revealed late last month, during an earnings call: "Clearwater Forest, our first Intel 18A part for servers has already gone into fab and Panther Lake for clients will be heading into Fab shortly." The former is positioned as the natural successor to Team Blue's many-times-delayed Xeon "Sierra Forest" (all E-Core) processor family. Intel's second generation E-core Xeon "Clearwater Forest" design is expected to launch in 2025, with a deployment of "Darkmont" efficiency-oriented cores. Official product roadmaps and patch notes have revealed basic "Clearwater Forest" information, but we have not seen many leaks. Bionic_Squash has a history of releasing strictly internal Intel presentation slides—Meteor Lake (MTL-S) desktop SKUs were uncovered last April.

Their latest discovery does not include any photo or documented evidence—Bionic_Squash's concise social media post stated: "Clearwater Forest uses 3D stacking with hybrid bonding." This claim points to the possible deployment of Foveros Direct advanced packaging—this technology was expected to be ready at some point within the second half of 2023, although a mid-December technology showcase implied that things were behind schedule. The fanciest "Clearwater Forest" Xeon processors could arrive with a maximum total of 288 E-core count (and 288 threads)—according to Wccftech analysis: "The CPU package is going to consist of a base tile on top of the interposer which is connected through a high-speed I/O, EMIB, and the cores will be sitting on the topmost layer...Foveros Direct technology will allow direct copper-to-copper bonding, enabling low resistance interconnects and around 10-micron bump pitches. Intel itself states that Foveros Direct will blur the boundary between where the wafer ends and the package begins."

Zen 6 & RDNA 5 Linked to AMD "Medusa" Ryzen Client CPUs

The mysterious Zen 6 "Morpheus" processor architecture was leaked accidentally by an AMD engineer's LinkedIn profile—news outlets picked up on this information last April. Naturally, Team Red's next priority is Zen 5—the latest reports suggest that two different chiplet designs are penciled in for mass production within the second quarter of 2024. Last September, insiders claimed that a proposed EPYC 9006 "Venice" CPU series was based on the sixth-gen microarchitecture. Everest/Olrak_29 has revealed various bits of speculative material regarding futuristic "Ryzen Client" processor designs since the start of 2024.

The latest postings to social media posit that AMD has selected an RDNA 5-based integrated graphics solution (possibly occupying a tile), thus "skipping RDNA 4" on their "Medusa" lineup of Ryzen Client processors. Leaked Microsoft documents revealed that its Xbox hardware design division was considering RDNA 5 for next-gen console specs. Medusa's CPU aspect is allegedly populated by Zen 6 "Morpheus" cores—as claimed in a January tweet. A new package design was also riffed on at the time: "Yes, I have teased this before...Medusa will use 2.5D interconnect with a much higher bandwidth," instead of a "traditional" multi-die design. Industry speculation has AMD's Zen 6 client architecture linked to a loose 2025/2026 launch window.

Samsung Electronics Collaborates with Arm on Optimized Next Gen Cortex-X CPU Using 2nm SF2 GAAFET Process

Samsung Electronics Co., Ltd., a world leader in advanced semiconductor technology, today announced a collaboration to deliver optimized next generation Arm Cortex -X CPU developed on Samsung Foundry's latest Gate-All-Around (GAA) process technology. This initiative is built on years of partnership with millions of devices shipped with Arm CPU intellectual property (IP) on various process nodes offered by Samsung Foundry.

This collaboration sets the stage for a series of announcements and planned innovation between Samsung and Arm. The companies have bold plans to reinvent 2-nanometer (nm) GAA for next-generation data center and infrastructure custom silicon, and a groundbreaking AI chiplet solution that will revolutionize the future generative artificial intelligence (AI) mobile computing market.

NVIDIA Accelerates Quantum Computing Exploration at Australia's Pawsey Supercomputing Centre

NVIDIA today announced that Australia's Pawsey Supercomputing Research Centre will add the NVIDIA CUDA Quantum platform accelerated by NVIDIA Grace Hopper Superchips to its National Supercomputing and Quantum Computing Innovation Hub, furthering its work driving breakthroughs in quantum computing.

Researchers at the Perth-based center will leverage CUDA Quantum - an open-source hybrid quantum computing platform that features powerful simulation tools, and capabilities to program hybrid CPU, GPU and QPU systems - as well as, the NVIDIA cuQuantum software development kit of optimized libraries and tools for accelerating quantum computing workflows. The NVIDIA Grace Hopper Superchip - which combines the NVIDIA Grace CPU and Hopper GPU architectures - provides extreme performance to run high-fidelity and scalable quantum simulations on accelerators and seamlessly interface with future quantum hardware infrastructure.

Intel Core i9-14900KS Retail & OEM Packages Listed in France

We are likely to see even more Intel Core i9-14900KS pre-release leaks as its rumored mid-March launch window approaches—hardware sleuth, momomo_us, has spent the weekend following any Team Blue breadcrumb trails. Their latest discovery points to "BX8071514900KS" and "CM8071504820506" product codes, and two listings on PC21 France's web shop. Intel seems to be offering its upcoming limited edition Raptor Lake Refresh über-flagship unit in two different guises—the first being a traditional boxed package, and the second appears to be a tray option (for system integrators). As pointed out by VideoCardz, it is not unusual to see OEM parts reach retail channels—similar cases have leaked in the past. The no frills tray choice: "offers a more cost-effective option for users who don't require fancy packaging or bundled coolers, making it a budget-friendly choice for the new CPU."

The Core i9-14900KS is far from being a wallet friendly prospect, yet the untimely listings indicate that the OEM option shaves off a grand total of €16 (~$17.25) when lined up against its fancy boxed sibling. The French retailer states that both items are on order, with zero stock in their warehouses. The boxed Core i9-14900KS seems to cost €768.34 (~$828) including taxes, while the tray variant's entry indicates a charge of €752.62 (~$811), with VAT factored in. These leaked prices are subject to change—perhaps the current figures are based on a distributor's pre-launch estimation. PC21 France does not display any pricing for the already released Core i9-14900K and 14900KF SKUs, but VideoCardz has checked other retail listings in the country—they reckon that the gulf between "K" and "KS" is €146 (best case scenario).

Intel Lunar Lake A1 Sample CPU Boost & Cache Specs Leak Out

HXL (@9550pro) has highlighted an intriguing pinned post on the Chinese Zhihu community site—where XZiar, a self described "Central Processing Unit (CPU) expert," has shared a very fuzzy/low quality screenshot of a Windows Task Manager session. The information on display indicates that a "Genuine Intel(R) 0000 1.0 GHz" processor was in use—perhaps a very early Lunar Lake (LNL) engineering sample (ES1). XZiar confirmed the pre-release nature of the onboard chip, and teased its performance prowess: "It's good to use the craftsmanship that others have stepped on. It can run 2.8 GHz with only A1 step, and it is very smooth."

The "A1" designation implies that the leaked sample is among the first LNL processor prototypes to exit manufacturing facilities—Intel previewed its "Lunar Lake-MX" SoC package to press representatives last November. XZiar's followers have pored over the screenshot and ascertained that the leaked example sports a "8-core + 8-thread, without Hyperthreading, 4P+4LPE" configuration. Others were confused by the chip's somewhat odd on-board cache designations—L1: 836 KB, L2: 14 MB and L3: 12 MB—XZiar believes that prototype's setup "is obviously not up to par," when a replier compares the spec to an N300 series processor. It is theorized that Windows Task Manager is simply not fully capable of detecting the sample's full makeup, but XZiar reckons that 12 MB of L3 cache is the correct figure.

Loongson LS3C6000 Server Processor Nearing Completion

A MyDrivers news report suggests that Loongson's LS3C6000 server processor has reached the tape-out phase of development—the article's author appears to be quite excited about this chip's prospects; a performance uptick could position it closer to past generation Intel and AMD parts. The company's proprietary LA664 "LoongArch" instruction set will be deployed on a chip design that accommodates 16 cores with simultaneous multi-threading technology (SMT) and 32 threads. In-house engineers think that the 3C6000 processor series is just as performant as Zen 3 and Tiger Lake (11th-gen Core) architectures, in terms of instructions per clock (IPC).

Loongson has reportedly deployed its Dragon Chain interconnect technology with the 3C6000 generation—the I/O interface is said to be much improved over current 3C5000-based server products. Company engineers have: "solved the bottleneck in the expansion of the number of processor cores. In the future, the company will also seal 32-core processors on the basis of 3C6000. 64-core products are possibly incoming later on." The MyDrivers article proposes that Loongson is targeting growing demand within China's server market, but LS3C6000 remains a "big project" that requires further compatibility and performance optimizations.

Loongson 3A6000 CPU Reportedly Matches AMD Zen 4 and Intel Raptor Lake IPC

China's homegrown Loongson 3A6000 CPU shows promise but still needs to catch up AMD and Intel's latest offerings in real-world performance. According to benchmarks by Chinese tech reviewer Geekerwan, the 3A6000 has instructions per clock (IPC) on par with AMD's Zen 4 architecture and Intel's Raptor Lake. Using the SPEC CPU 2017 processor benchmark, Geekerwan has clocked all the CPUs at 2.5 GHs to compare the raw benchmark results to Zen 4 and Intel's Raptor Lake (Raptor Cove) processors. As a result, the Loongson 3A6000 seemingly matches the latest designs by AMD and Intel in integer results, with integer IPC measured at 4.8, while Zen 4 and Raptor Cove have 5.0 and 4.9, respectively. The floating point performance is still lagging behind a lot, though. This demonstrates that Loongson's CPU design can catching up to global leaders, but still needs further development, especially for floating point arithmetic.

However, the 3A6000 is held back by low clock speeds and limited core counts. With a maximum boost speed of just 2.5 GHz across four CPU cores, the 3A6000 cannot compete with flagship chips like AMD's 16-core Ryzen 9 7950X running at 5.7 GHz. While the 3A6000's IPC is impressive, its raw computing power is a fraction of that of leading x86 CPUs. Loongson must improve manufacturing process technology to increase clock speeds, core counts, and cache size. The 3A6000's strengths highlight Loongson's ambitions: an in-house LoongArch ISA design fabricated on 12 nm achieves competitive IPC to state-of-the-art x86 chips built on more advanced TSMC 5 nm and Intel 7 nm nodes. This shows the potential behind Loongson's engineering. Reports suggest that next-generation Loongson 3A7000 CPUs will use SMIC 7 nm, allowing higher clocks and more cores to better harness the architecture's potential. So, we expect the next generation to set a bar for China's homegrown CPU performance.

NUDT MT-3000 Hybrid CPU Reportedly Utilized by Tianhe-3 Supercomputer

China's National Supercomputer Center (NUDT) introduced their Tianhe-3 system as a prototype back in early 2019—at the time it had been tested by thirty local organizations. Notable assessors included the Chinese Academy of Sciences and the China Aerodynamics Research and Development Center. The (previous generation) Tianhe-2 system currently sits in a number seven position of world-ranked Supercomputers—offering a measured performance of 33.86 petaFLOPS/s. The internal makeup of its fully formed successor has remained a mystery...until now. The Next Platform believes that the "Xingyi" monikered third generation supercomputer houses the Guangzhou-based lab's MT-3000 processor design. Author, Timothy Prickett Morgan, boasted about acquiring exclusive inside knowledge ahead of international intelligence agencies—many will be keeping an eye on the NUDT, since it is administered by the National University of Defence Technology (itself owned by the Chinese government).

The Next Platform has a track record of outing intimate details relating to Chinese-developed scientific breakthroughs—the semi-related "Oceanlight" system installed at their National Supercomputer Center (Wuxi) was "figured out" two years ago. Tianhe-3 and Oceanlight face significant competition in the form of "El Capitan"—this is the USA's prime: "supercomputer being built right now at Lawrence Livermore National Laboratory by Hewlett Packard Enterprise in conjunction with compute engine supplier AMD. We need to know because we want to understand the very different—and yet, in some ways similar—architectural path that China seems to have taken with the Xingyi architecture to break through the exascale barrier."

IDC Forecasts Artificial Intelligence PCs to Account for Nearly 60% of All PC Shipments by 2027

A new forecast from International Data Corporation (IDC) shows shipments of artificial intelligence (AI) PCs - personal computers with specific system-on-a-chip (SoC) capabilities designed to run generative AI tasks locally - growing from nearly 50 million units in 2024 to more than 167 million in 2027. By the end of the forecast, IDC expects AI PCs will represent nearly 60% of all PC shipments worldwide.

"As we enter a new year, the hype around generative AI has reached a fever pitch, and the PC industry is running fast to capitalize on the expected benefits of bringing AI capabilities down from the cloud to the client," said Tom Mainelli, group vice president, Devices and Consumer Research. "Promises around enhanced user productivity via faster performance, plus lower inferencing costs, and the benefit of on-device privacy and security, have driven strong IT decision-maker interest in AI PCs. In 2024, we'll see AI PC shipments begin to ramp, and over the next few years, we expect the technology to move from niche to a majority."

Intel Begins APX and AVX10 Enablement in Linux, Setting Foundation for Granite Rapids

Intel has begun rolling out software binaries compiled with support for upcoming Advanced Performance Extensions (APX) and Advanced Vector Extensions 10 (AVX10) instruction set extensions in their Clear Linux distribution, ahead of any processors officially supporting these capabilities launching. Clear Linux is focusing first on optimized APX and AVX10 versions of foundational software libraries like glibc and Python. This builds on Clear Linux's existing support for optimized x86-64-v2, v3, and v4 code paths, leveraging the latest microarchitectural features of each Intel CPU generation. The rationale is to prepare Clear Linux to fully leverage the performance potential of next-generation Intel Xeon server processors, code-named Granite Rapids, expected to launch later this year.

Granite Rapids will introduce AVX10.1/512 instructions as well as the new APX capabilities, which are currently not well documented implementation wise. By rolling out APX/AVX10 support in software now, Clear Linux aims to have an optimized ecosystem ready when the new processors officially ship. Initially, APX and AVX10 support is being added using the existing GCC compiler. Still, Clear Linux notes they will transition to using the upcoming GCC 14 release with more mature support for these instruction sets. The goal is to eventually have many Clear Linux packages compiled with APX/AVX10 code paths to maximize performance on future Intel CPUs. This continues Clear Linux's strategy of leveraging Intel's latest hardware capabilities in software.

Intel NEX "Bartlett Lake-S" CPUs Reportedly in Pipeline

Supply chain insiders have claimed that Intel is working on extending the lifespan of its LGA 1700 platform—a BenchLife report proposes that the "Bartlett Lake-S" processor family is due soon, courtesy of Team Blue's Network and Edge (NEX) business group. Only a few days ago, the rumor mill had placed "Bartlett Lake-S" CPUs in a mainstream desktop category, due to alleged connections with the Raptor Lake-S Refresh series—the former is also (supposedly) based on the Intel 7 processor process. BenchLife believes that DDR4 and DDR5 memory will be supported, but with no mention of possible ECC functionality. Confusingly, chip industry tipsters believe that the unannounced processors could be launched as 15th Gen Core parts.

BenchLife has a history of discovering and reporting on Intel product roadmaps—apparently Bartlett Lake-S can leverage the same core configurations as seen on Raptor Lake-S; namely 8 Raptor Cove P-Cores and 16 Gracemont E-Cores. An insider source claims that a new pure P-Core-only design could exist, sporting up to twelve Raptor Cove units. According to a leaked Bartlett Lake-S series specification sheet: "the iGPU part will use (existing) Intel Xe architecture, up to Intel UHD Graphics 770." The publication alludes to some type of AI performance enhancement as a distinguishing feature for Bartlett Lake-S, when lined up against 14th Gen Core desktop SKUs. Folks salivating at the prospect of a mainstream DIY launch will have to wait and see (according to BenchLife's supply chain insider): "judging from various specifications, this product belonging to the Intel NEX business group may also be decentralized to the consumer market, but the source did not make this part too clear and reserved some room for maneuver."

AI's Rocketing Demand to Drive Server DRAM—2024 Predictions Show a 17.3% Annual Increase in Content per Box, Outpacing Other Applications

In 2024, the tech industry remains steadfastly focused on AI, with the continued rollout of advanced AI chips leading to significant enhancements in processing speeds. TrendForce posits that this advancement is set to drive growth in both DRAM and NAND Flash across various AI applications, including smartphones, servers, and notebooks. The server sector is expected to see the most significant growth, with content per box for server DRAM projected to rise by 17.3% annually, while enterprise SSDs are forecast to increase by 13.2%. The market penetration rate for AI smartphones and AI PCs is expected to experience noticeable growth in 2025 and is anticipated to further drive the average content per box upward.

Looking first at smartphones, despite chipmakers focusing on improving processing performance, the absence of new AI functionalities has somewhat constrained the impact of AI. Memory prices plummeted in 2023 due to oversupply, making lower-priced options attractive and leading to a 17.5% increase in average DRAM capacity and a 19.2% increase in NAND Flash capacity per smartphone. However, with no new applications expected in 2024, the growth rate in content per box for both DRAM and NAND Flash in smartphones is set to slow down, estimated at 14.1% and 9.3%, respectively.

Intel, Microsoft, and Cirrus Logic Collaborate on Lunar Lake Reference Laptop Design

Intel, Microsoft, and a fabless semiconductor company making analog, mixed-signal, and audio DSP, Cirrus Logic, have collaborated on a new reference laptop design to showcase the upcoming Lunar Lake mobile CPUs. The goal is to enable "cool, quiet, and high-performance" laptops that push the boundaries of efficiency, thickness, and acoustics. The reference design incorporates three key components from Cirrus Logic - the CP9314 power converter chip, CS42L43 audio codec, and CS35L56 amplifier. The CP9314 is the most critical element, using advanced power conversion technology to improve Lunar Lake's power efficiency significantly. This enables thinner and quieter laptops with longer battery life. The codec and amplifier chips also play a role, providing high-quality audio with next-generation features like spatial audio support.

Together, these Cirrus Logic components aim to highlight Lunar Lake's capabilities for efficiency, performance, and immersive experiences in a thin and light form factor. While details remain scarce on the Lunar Lake CPUs themselves, they are expected to arrive later this year, likely in the second half. If the reference laptops live up to their promises, Lunar Lake could help Intel regain leadership in mobile computing efficiency, which has been lacking since the introduction of Apple's M series SoCs, which have superior battery life. With expert collaboration from Microsoft and Cirrus Logic on the peripheral hardware and software, Lunar Lake may usher in a new generation of cool, quiet, and powerful laptops.

Intel Arrow Lake-S 24 Thread CPU Leaked - Lacks Hyper-Threading & AVX-512 Support

An interesting Intel document leaked out last month—it contained detailed pre-release information that covered their upcoming 15th Gen Core Arrow Lake-S desktop CPU platform, including a possible best scenario 8+16+1 core configuration. Thorough analysis of the spec sheet revealed a revelation—the next generation Core processor family could "lack Hyper-Threading (HT) support." The rumor mill had produced similar claims in the past, but the internal technical memo confirmed that Arrow Lake's "expected eight performance cores without any threads enabled via SMT." These specifications could be subject to change, but tipster—InstLatX64—has uprooted an Arrow Lake-S engineering sample: "I spotted (CPUID C0660, 24 threads, 3 GHz, without AVX 512) among the Intel test machines."

The leaker had uncovered several pre-launch Meteor Lake SKUs last year—with 14th Gen laptop processors hitting the market recently, InstLatX64 has turned his attention to seeking out next generation parts. Yesterday's Arrow Lake-S find has chins wagging about the 24 thread count aspect (sporting two more than the fanciest Meteor Lake Core Ultra 9 processor)—this could be an actual 24 core total configuration—considering the evident lack of hyper-threading, as seen on the leaked engineering sample. Tom's Hardware reckons that the AVX-512 instruction set could be disabled via firmware or motherboard UEFI—if InstLatX64's claim of "without AVX-512" support does ring true, PC users (demanding such workloads) are best advised to turn to Ryzen 7040 and 8040 series processors, or (less likely) Team Blue's own 5th Gen Xeon "Emerald Rapids" server CPUs.

Graid Technology Launches Revolutionary GPU-Based RAID Solution, SupremeRAID SR-1001

Graid Technology, an industry trailblazer in GPU-based RAID for NVMe, proudly announces the groundbreaking release of SupremeRAID SR-1001. This innovative GPU-based RAID solution is designed to maximize NVMe SSD performance while eliminating CPU cycle consumption and avoiding throughput bottlenecks. Utilizing patented out-of-path RAID protection technology, data travels directly from the CPU to the NVMe SSDs, ensuring unmatched flexibility, unprecedented performance, and overall superior value.

NVMe SSDs, with their high-speed performance and low latency, significantly enhance tasks across CAD, video editing, IoT, and gaming. Faster loading times, improved rendering, quick file transfers, smooth playback, efficient data processing, and reduced latency contribute to overall superior performance. But traditional RAID methods introduce bottlenecks, limiting the performance of NVMe SSDs in critical applications.

Intel Lunar Lake-MX to Embed Samsung LPDDR5X Memory on SoC Package

According to sources close to Seoul Economy, and reported by DigiTimes, Intel has reportedly chosen Samsung as a supplier for its next-generation Lunar Lake processors, set to debut later this year. The report notes that Samsung will provide LPDDR5X memory devices for integration into Intel's processors. This collaboration could be a substantial win for Samsung, given Intel's projection to distribute millions of Lunar Lake CPUs in the coming years. However, it's important to note that this information is based on a leak and has not been officially confirmed. Designed for ultra-portable laptops, the Lunar Lake-MX platform is expected to feature 16 GB or 32 GB of LPDDR5X-8533 memory directly on the processor package. This on-package memory approach aims to minimize the platform's physical size while enhancing performance over traditional memory configurations. With Lunar Lake's exclusive support for on-package memory, Samsung's LPDDR5X-8533 products could significantly boost sales.

While Samsung is currently in the spotlight, it remains unclear if it will be the sole LPDDR5X memory provider for Lunar Lake. Intel's strategy involves selling processors with pre-validated memory, leaving the door open for potential validation of similar memory products from competitors like Micron and SK Hynix. Thanks to a new microarchitecture, Intel has promoted its Lunar Lake processors as a revolutionary leap in performance-per-watt efficiency. The processors are expected to utilize a multi-chipset design with Foveros technology, combining CPU and GPU chipsets, a system-on-chip tile, and dual memory packages. The CPU component is anticipated to include up to eight cores, a mix of four high-performance Lion Cove and four energy-efficient Skymont cores, alongside advanced graphics, cache, and AI acceleration capabilities. Apple's use of on-package memory in its M-series chips has set a precedent in the industry, and with Intel's Lunar Lake MX, this trend could extend across the thin-and-light laptop market. However, systems requiring more flexibility in terms of configuration, repair, and upgrades will likely continue to employ standard memory solutions like SODIMMs and/or the new CAMM2 modules that offer a balance of high performance and energy efficiency.

Intel Reports Fourth-Quarter and Full-Year 2023 Financial Results

Intel Corporation today reported fourth-quarter and full-year 2023 financial results. "We delivered strong Q4 results, surpassing expectations for the fourth consecutive quarter with revenue at the higher end of our guidance," said Pat Gelsinger, Intel CEO. "The quarter capped a year of tremendous progress on Intel's transformation, where we consistently drove execution and accelerated innovation, resulting in strong customer momentum for our products. In 2024, we remain relentlessly focused on achieving process and product leadership, continuing to build our external foundry business and at-scale global manufacturing, and executing our mission to bring AI everywhere as we drive long-term value for stakeholders."

David Zinsner, Intel CFO, said, "We continued to drive operational efficiencies in the fourth quarter, and comfortably achieved our commitment to deliver $3 billion in cost savings in 2023. We expect to unlock further efficiencies in 2024 and beyond as we implement our new internal foundry model, which is designed to drive greater transparency and accountability and higher returns on our owners' capital." For the full year, the company generated $11.5 billion in cash from operations and paid dividends of $3.1 billion.

Intel Releases Arc GPU Graphics Drivers 101.5234 WHQL

Intel has released the latest version of its Arc GPU Graphics Drivers, version 101.5234 WHQL. This appears to be a major update as it brings Game On Driver support for Arc A-Series Graphics for plenty of new games including Enshrouded, Suicide Squad: Kill the Justice League, Like a Dragon: Infinite Wealth, Tekken 8, and the recently released and quiet popular Palworld, as well as Game On Driver support on Intel Core Ultra CPUs with Intel Arc Graphics for Like a Dragon: Infinite Wealth, Tekken 8, and Palworld.

The new drivers also bring plenty of game performance improvements for a rather extensive list of games for both Arc A-series Graphics and Intel Core Ultra CPUs with Arc Graphics. These improvements range anywhere from 4 percent, up to 268 percent, and include both DirectX 11 and DirectX 12 titles. You can check out the full list below. Intel also fixed a couple of issues, including Alan Wake 2 white corruption issue on reflective surfaces, Sons of the Forest corruption on the item text issue, and issues with Intel Smooth Sync in some DirectX 11 titles. It also fixes issues with on Intel Core Ultra CPUs with Arc Graphics where The Talos Principle may experience an application crash with certain upscaling presets, Call of Duty Modern Warfare III application crash issues, and Blackmagic Fusion application crash during render operations.

DOWNLOAD: Intel Arc GPU Graphics Drivers 101.5234 WHQL
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