Talking with XDA-Developers, AMD has confirmed more details about the upcoming Phoenix2 APU, which should debut with Ryzen 3 7440U and Ryzen 5 7540U APUs. Unlike the larger Phoenix APU, the Phoenix2 APU will have a hybrid design with Zen 4 and Zen 4c cores. As confirmed by AMD, the Phoenix2 APU will be a 6-core design, which makes it pretty clear it will feature two Zen 4 and four Zen 4c cores. It will also come with a Radeon 740M GPU with 4 RDNA3 compute units (CUs). The Phoenix2 APU will also lack the Ryzen AI core. Unlike Intel's hybrid approach, Zen 4c cores will have the same IPC as Zen 4, same instructions, but have less L3 cache per core.

AMD has previously confirmed that the Ryzen 3 7440U will have a smaller die size of 137 mm², compared to 178 mm² on the Ryzen 5 7640U. While AMD did not directly confirmed that the Ryzen 5 7540U will also be based on the Phoenix2 APU, official specification shows it with the same 4 GPU cores and without Ryzen AI core, making it pretty obvious it will be based on the same Phoenix2 APU. Hopefully, AMD will come up with more official details about its Phoenix2 APU as there are still a lot of unknowns.

The China-specific AMD Ryzen 5 7500F desktop processor could see a wider international launch, reports VideoCardz, citing the AMD website, which has marked its regional availability as "global." The processor is priced at USD $180 for the retail PIB package. The 7500F is a 6-core/12-thread processor based on the same "Raphael" Zen 4 MCM as the 7600X, but lacks integrated graphics, has a lower 65 W TDP, and slightly lower clock speeds. The processor saw a China-exclusive release earlier this week. Chinese and regional media with access to samples reviewed the processor, noting that its gaming performance 6% behind that of the Ryzen 5 7600X at 1080p, but more importantly, the Ryzen 5 7500F is 13% faster than the Core i5-13400 in terms of average FPS, and about 8% faster in 1% low FPS.

This makes the Ryzen 5 7500F a faster gaming processor than the $200 Core i5-13400, and the $180 Core i5-13400F, which it was originally designed to square off against. The Ryzen 5 7500F is configured with 6 cores and 12 threads, 1 MB of L2 cache per core, and 32 MB of shared L3 cache. The processor has a base frequency of 3.70 GHz, with a 5.00 GHz boost that's just 100 MHz behind that of the Ryzen 5 7600 (65 W), and 300 MHz behind the 7600X (105 W). The "F" in the brand extension indicates a lack of integrated graphics, which shouldn't be a dealbreaker for the processor's intended audience—PC gamers. AMD is including a Wraith Stealth stock cooler with the retail 7500F, which coupled with A620 chipset motherboards that start at $125, should make for a formidable mainstream gaming PC platform with ample upgrade headroom.

AYANEO, an Asian manufacturer known for its mobile handhelds, has introduced a new device, the AYANEO Kun. The Kun is powered by the latest AMD Ryzen 7 7840U mobile processor from the Ryzen 7040 series. This SoC includes eight Zen 4 cores and an integrated graphics unit based on the RDNA 3 architecture with 12 compute units. The console's dimensions stand at 312 x 133 x 21.9 mm, making it slightly wider but slimmer than ASUS's ROG Ally, with the exact weight yet to be disclosed. Kun's battery capacity is rated for 75Wh, as compared to other handhelds' 40 Wh, potentially indicating a longer battery life.

The AYANEO Kun's other notable features include its 8.4-inch display with an IPS panel and resolution of 1,920 x 1,200 pixels. For controls, the device utilizes a D-Pad and two Hall sensor-equipped joysticks for gaming. The shoulder buttons also employ Hall sensor technology. There are touchpads on either side of the display, along with other function keys and the A/B/X/Y keys. For the first time, AYANEO has integrated buttons at the back of the device, offering customizable functions. The device provides two Type-C (likely USB4), one USB Type-A, and one 3.5 mm jack connection. More comprehensive technical details, model variants, and pricing information are to be released during the official unveiling of the AYANEO Kun scheduled for August.

Best Buy has slashed $100 off of the AMD Ryzen 5 7600X's normal asking price—North American customers can obtain these 6-core/12-thread processors for $199.90 a piece. Amazon US price matching the consumer electronics store's offer earlier today, but their stocks were depleted at some point this afternoon. AMD's Ryzen 5 7600 (non-X) processor is still stuck at MSRP ($229), so its X-model sibling presents a better deal at its current lower price. Buyers will have to splash out extra on a CPU cooling solution, since Team Red does not include a Wraith Stealth or Prism air cooler as standard with the Ryzen 5 7600X's retail package. AMD + Bethesda's Starfield Game Bundle partnership campaign kicked off last week, and all of the AM5 desktop Ryzen 7000-series models qualify for the active promotion. This plays a part in boosting customer interest, but a nice discount also goes a long way—hence the quick run on Amazon's supplies of the Ryzen 5 7600X.

Intel decided to drop the relatively new AVX-512 instruction set for laptop/mobile platforms when it was discovered that it would not work in conjunction with their E-core designs. Alder Lake was the last generation to (semi) support these sets thanks to P-cores agreeing to play nice, albeit with the efficiency side of proceedings disabled (via BIOS settings). Intel chose to fuse off AVX-512 support in production circa early 2022, with AMD picking up the slack soon after and working on the integration of AVX-512 into Zen 4 CPU architecture. The Ryzen 7040 series is the only current generation mobile platform that offers AVX-512 support. Phoronix decided to benchmark a Ryzen 7 7840U against older Intel i7-1165G7 (Tiger Lake) and i7-1065G7 (Ice Lake) SoCs in AVX-512-based workloads.

Team Red's debut foray into AVX-512 was surprisingly performant according to Phoronix's test results—the Ryzen 7 7840U did very well for itself. It outperformed the 1165G7 by 46%, and the older 1065G7 by an impressive 63%. The Ryzen 7 APU was found to attain the highest performance gain with AVX-512 enabled—a 54% performance margin over operating with AVX-512 disabled. In comparison Phoronix found that: "the i7-1165G7 Tiger Lake impact came in at 34% with these AVX-512-heavy benchmarks or 35% with the i7-1065G7 Ice Lake SoC for that generation where AVX-512 on Intel laptops became common."

AMD's laptop-oriented Ryzen 7040 series of Zen 4 processors APUs—based on 4 nm "Phoenix" monolithic silicon—have been slow to hit the market, but folks have had plenty of time to study spec sheets and press material. The presence of similar-ish 7040HS and 7040H product assignments (also sharing nearly identical specifications) has caused some confusion within the PC hardware community. Team Red has finally got round to explaining the significance of their -HS and -H identifiers—product pages were updated with new information this month, showing that the Ryzen 7040H series exists as a Chinese market exclusive. NA, EMEA, APJ, LATAM regions will be getting the closely related Ryzen 7040HS lineup instead. ASUS, Lenovo, and Machenike are set to launch new laptop models in China that will feature Ryzen 7040H APUs—VideoCardz found it interesting that "some of them will not have discrete graphics and will have a higher TDP of 65 W".

The AMD Ryzen 5 7500F CPU has been popping up via various leaks—with no official announcements made despite photos, basic specifications and benchmark results appearing online. Tom's Hardware could not extract a comment directly from Team Red, so it pivoted to inside sources instead to find out more about the mysterious Zen 4 iGPU-less processor. The news site discovered that this model is very likely going to be a Chinese market exclusive—insiders reckon that it will be released closer to the end of this month. Retailers and e-tailers in the region are getting first dibs, with the Ryzen 5 7500F also made available to SIs (system integrators), so pre-built computers featuring this AM5 CPU could be released soon after.

Tom's Hardware believes that the: "Ryzen 5 7500F is very similar to the Ryzen 5 7600 and will operate with a 65 W TDP, and thus have slightly lower boost clock speeds than the 7600." It suspects that a recently published benchmark showing that single-core performance edges past the Ryzen 5 7600X (105 W TDP) is not all that accurate—these results should be "taken with a grain of salt." According to their verified sources, the Ryzen 5 7500F should "perform slightly slower than the regular 65 W Ryzen 5 7600 (non-X)." The article presents some hope that AMD is simply market testing the CPU prior to a possible USA rollout, but insiders indicate that company plans have the Ryzen 5 7500F marked for launch in China only.

Gamers Nexus recently visited AMD's headquarters in Austin, Texas—a previous video documented company employees discussing the history of Zen CPUs, and the showcasing of historical prototypes including (unreleased) Ryzen 9 5950X3D and 5900X3D models. The YouTube channel promised that more AMD HQ tour footage would be shared over the next couple of weeks—their latest upload has (host) Steve Burke talking to representatives from various internal labs.

A notable detail extracted from Team Red's thermal laboratory was an old heat spreader concept for Zen 4 processors—the team evaluated whether a concealed vapor chamber would offer improved cooling performance versus conventional metal solutions. Their tests determined that the extra cost (not disclosed) required to integrate a vapor chamber was not worth the resultant 1°C temperature difference, when lined up against a traditional metal design IHS. AMD confirmed that the concept was not developed further since prototype chips were also found to generate heat exceeding expected normal levels, under continuous long-term workload conditions.

A screenshot from Puget Systems benchmark database reveals a new upcoming desktop processor model by AMD, the Ryzen 5 7500F. The screenshot details the 7500F as a 6-core processor, and the machine features an ASUS ROG Strix X670E-F Gaming motherboard, along with an RTX 4080 graphics card. At this point it's hard to tell what the "F" brand extension means in AMD nomenclature. On Intel, it denotes a lack of integrated graphics.

There are two possible theories on what the 7500F could be. One holds that it's a down-rated "Raphael" MCM with a disabled iGPU; while the other holds that it could be based on the 4 nm Phoenix-2 monolithic silicon. Detailed in an older article, the Phoenix-2 is a 137 mm² monolithic silicon that physically features no more than 6 "Zen 4" CPU cores, and an iGPU with just 4 RDNA 3 compute units, besides I/O that's identical to that of the regular 178 mm² 8-core/12-CU Phoenix silicon. Phoenix-2 on AM5 might just end up with a lower bill of materials than a single-CCD "Raphael" MCM.

Update 06:13 UTC: A Korean retailer has posted the first picture of the Ryzen 5 7500F in the flesh. They claim a street price of around $170-180 (KRW equivalent), and availability slated for July 7.

AMD has designed a physically smaller version of its 4 nm "Phoenix" mobile processor silicon. The chip could power lower-end mobile SKUs in the Ryzen 3 and Ryzen 5 series, and it's likely that it could make it to Socket AM5, where it will power Ryzen 3 and lower-end versions of Ryzen 5 desktop processors. Built on the same 4 nm foundry process as the standard "Phoenix" silicon, the so-called "Phoenix 2" or "PHX2" die physically features a 6-core/12-thread CPU based on the "Zen 4" microarchitecture, and a physically smaller iGPU with just two WGPs (workgroup processors), or 4 CU (compute units), which work out to 256 stream processors. This iGPU is based on the same RDNA3 graphics architecture as the one powering the regular "Phoenix" silicon. At this point we don't know if the Ryzen AI component gets the axe, but given AMD's enthusiasm with consumer AI acceleration, the die might just retain it.

The PHX2 die likely retains the I/O of the regular "Phoenix," including a dual-channel (4 sub-channel) DDR5 and LPDDR5 memory interface, and a 24-lane PCI-Express Gen 4 root complex. These changes result in a die that appears to be around three-quarters the size of the regular "Phoenix," with an area of around 137 mm², compared to 178 mm² of the regular "Phoenix." The smaller die will save AMD big on costs and yields. At this time, there are at least two processor models reported to be based on this die, the Ryzen 5 7540U and Ryzen 3 7440U. Both are 15 W to 28 W class mobile processors aimed at thin-and-light notebooks.

Supermicro Inc., a Total IT Solution Provider for Cloud, AI/ML, Storage, and 5G/Edge, is introducing a new server that gives IT and data center owners a high performance and scalable solution to meet the needs for E-commerce, cloud gaming, code development, content creation, and virtual private servers. The new systems are designed to use AMD Ryzen 7000 Series processors optimized for server usage, based on the latest "Zen 4" core architecture, which has a max boost speed of up to 5.7 GHz, including PCIe 5.0 support, DDR5-5200 MHz, and up to 16 cores (32 threads) per CPU. The new Supermicro MicroCloud is designed to use the latest system technology for a wide range of applications, including web hosting, cloud gaming, and virtual desktop applications.

"We are expanding our application optimized server product lines to include the latest AMD Ryzen 7000 Series processors," said Michael McNerney, VP of Marketing and Security, Supermicro. "These new servers from Supermicro will give IT administrators a compact and high-performance option in order to offer more services with lower latencies to their internal or external customers. By working closely with AMD to optimize the Ryzen 7000 Series firmware for server usage, we can bring a range of solutions with new technologies with PCIe 5.0, DDR5 memory, and very high clock rates to market faster, which allows organizations to reduce costs and offer advanced solutions to their clients."

Gamers Nexus has uploaded a video feature dedicated to the history of AMD's Zen CPU architecture—editor-in-chief and founder Stephen Burke ventured to Team Red's Austin, Texas-based test and engineering campus. Longer and more in-depth coverage of his lab tour will be released at a later date, but today's upload included an interesting segment covering unreleased hardware. The Gamers Nexus crew spent some time looking at several examples of current and past generation AMD 3D V-Cache CPUs. Prototype Ryzen 7000-series Zen 4 designs were shown off by principal engineer Amit Mehra and technical team member Bill Alverson. They also brought out older 5000-series Zen 3 units that never reached retail—the 16-core Ryzen 9 5950X3D was demonstrated as having a 3.5 GHz base clock, and it can boost up to 4.1 GHz. The 12-core Ryzen 9 5900X3D had 3.5 GHz base and 4.4 GHz boost clocks.

Team Red only sells one AM4 3D V-Cache model at the moment, in the form of its well received Ryzen 7 5800X3D CPU. It was released over a year ago, but recent price cuts have resulted in increased unit sales—system builders looking to maximize the potential of their older generation Ryzen 5000-series compatible mainboards are snapping up 5800X3Ds. AMD could be readying a cheaper alternative, with previous reports proposing that a "Ryzen 5 5600X3D" is positioned to take on Intel's 13th Gen Core i5 series (with DDR4). The unreleased Ryzen 9 5950X3D and 5900X3D have 3D V-Cache stacks on both of their CCDs (granting 192 MB of L3 cache), which is unique given that all retail 3D V-Cache CPUs (released so far) restrict this to a single CCD stack. Apparently AMD decided to stick with the latter setup due to it offering the best balance of performance and efficiency, plus gaming benchmarks demonstrated that there was not much of a difference between the configurations.

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.

AMD today launched its Ryzen 7040HS line of mobile processors targeting consumer notebooks of conventional thickness and portability, which AMD considers thin-and-light. This class of devices is positioned between ultraportable notebooks, and gaming notebooks or portable workstations. AMD already powers several segments of gaming notebooks and portable workstations with its Ryzen 7045HX series "Dragon Range" mobile processors, with CPU core counts ranging between 6 and 16; as well as the ultraportable segment with the Ryzen 7040U series; but while the 7045 series have their TDP rated in the 45 W to 65 W range, and the Ryzen 7040U in the 15 W to 28 W range, the company was lacking a current-generation processor lineup in the 35 W to 54 W segment, which the company is filling up with today's Ryzen 7040HS series launch.

The Ryzen 7040HS series processors are based on the 4 nm "Phoenix" monolithic silicon, just like the 7040U series, and is based on a combination of "Zen 4" microarchitecture for its CPU, RDNA3 graphics architecture for its iGPU, and the new XDNA architecture for its Ryzen AI on-chip accelerator. Physically, the "Phoenix" silicon features an 8-core/16-thread "Zen 4" CPU. Each core has 1 MB of dedicated L2 cache, and a 16 MB L3 cache is shared among the 8 cores. The iGPU features 12 RDNA3 compute units, which amount to 768 stream processors, along with 24 AI Accelerators (specific to the RDNA3 architecture); 24 Ray Accelerators, 48 TMUs, and 32 ROPs. The iGPU meets the full DirectX 12 Ultimate logo requirements. The Ryzen AI XDNA accelerator features 20 AI acceleration tiles, each with local memory.

AMD on Tuesday (June 13) launched the EPYC 9004 "Bergamo" 128-core/256-thread high density compute server processor, and with it, debuted the new "Zen 4c" CPU microarchitecture. A lot had been made out about Zen 4c in the run up to yesterday's launch, such as rumors that it is a Zen 4 "lite" core that has lesser number-crunching muscle, and hence lower IPC, and that Zen 4c is AMD's answer to Intel's E-core architectures, such as "Gracemont" and "Crestmont." It turns out that it's neither a lite version of Zen 4, nor is it an E-core, but a physically compacted version of the Zen 4 core, with identical number crunching machinery.

First things first—Zen 4c has the same exact IPC as Zen 4 (that's performance at a given clock-speed). This is because its front-end, execution stage, load/store component, and internal cache hierarchy is exactly the same. It has the same 88-deep load queue, 64-deep store queue, the same 675,000 µop cache, the exact same INT+FP issue width of 10+6, the same exact INT register file, the same scheduler, and cache latencies. The L1I and L1D caches are the same 32 KB in size as "Zen 4," and so is the dedicated L2 cache, at 1 MB.

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."

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."

Giga Computing, a subsidiary of GIGABYTE and an industry leader in high-performance servers, server motherboards, and workstations, today announced support for the latest 4th Gen AMD EPYC processors. The new processors, based on "Zen 4c" architecture and featuring AMD 3D V-Cache technology, enhance Giga Computing's enterprise solutions, enabling superior performance and scalability for cloud native computing and technical computing applications in GIGABYTE enterprise solutions. To date, more than thirty unique GIGABYTE systems and platforms support the latest generation of AMD EPYC 9004 processors. As time goes on Giga Computing will roll out more new GIGABYTE models for this platform, including more SKUs for immersion-ready servers and direct liquid cooling systems.

"For every new generation of AMD EPYC processors, GIGABYTE has been there, offering diverse platform options for all workloads and users," said Vincent Wang, Sales VP at Giga Computing. "And with the recent announcement of new AMD EPYC 9004 processors for technical computing and cloud native computing, we are also ready to support them at this time on our current AMD EPYC 9004 Series platforms."

Today, at the "Data Center and AI Technology Premiere," AMD announced the addition of two new, workload optimized processors to the 4th Gen EPYC CPU portfolio. By leveraging the new "Zen 4c" core architecture, the AMD EPYC 97X4 cloud native-optimized data center CPUs further extend the EPYC 9004 Series of processors to deliver the thread density and scale needed for leadership cloud native computing. Additionally, AMD announced the 4th Gen AMD EPYC processors with AMD 3D V-Cache technology, ideally suited for the most demanding technical computing workloads.

"In an era of workload optimized compute, our new CPUs is pushing the boundaries of what is possible in the data center, delivering new levels of performance, efficiency, and scalability," said Forrest Norrod, executive vice president and general manager, Data Center Solutions Business Group, AMD. "We closely align our product roadmap to our customers' unique environments and each offering in the 4th Gen AMD EPYC family of processors is tailored to deliver compelling and leadership performance in general purpose, cloud native or technical computing workloads."

AMD today announced its Ryzen PRO 7040 line of processors for the all-important commercial notebook segment. A commercial notebook is a class of notebook that are purchased in large quantities by businesses or government organizations, to be handed out to their employees. The key distinction from consumer notebooks is their in-built security and remote-management features that let the organization remotely handle user credentials, securely store company data, and remotely deploy software updates. Most importantly, the organization maintains ownership over the device and can remotely de-activate it at whim. This is a particularly important market segment for both AMD and Intel (which sells 13th Gen Core vPro processors). AMD's launch today includes Ryzen PRO 7040 series mobile processors for both the 15 W to 28 W ultraportable, and 35 W to 55 W thin-and-light (mainstream) commercial notebook form-factors.

At the heart of the Ryzen PRO 7040 series processors is the 4 nm "Phoenix" silicon, which combines the "Zen 4" microarchitecture for the CPU, with RDNA3 graphics architecture for the iGPU, and introduces the Ryzen AI on-die accelerator based on the Xilinx-designed XDNA architecture, to the commercial notebook segment. The silicon physically features an 8-core/16-thread "Zen 4" CPU, with several processor models boosting to the 5.00 GHz-mark. Each core has 1 MB of dedicated L2 cache, and the eight cores share a 16 MB L3 cache. The iGPU meets full DirectX 12 Ultimate logo requirements, and features 12 RDNA3 compute units, which work out to 768 dual issue-rate stream processors, 24 AI Accelerators (intrinsic to RDNA3 and not related to Ryzen AI); and 12 Ray Accelerators, besides 48 TMUs and industry-leading 32 ROPs. AMD is backing the iGPU on these processors with AMD Software PRO (the same class of drivers as Radeon PRO GPUs), which come with superior support from AMD, and special packages for remote deployment by organizations.

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.

CPUID recently released version 2.06 of the globally popular free CPU-Z utility which includes updates to support reporting of a variety of recent or obscure CPU and GPU models. Intel's "Alder Lake-N", AMD's recently released "Dragon Range" mobile Zen 4 processors, Zhoaxin's KH-40000 and KX-6000G, and of course NVIDIA's RTX 4060 Ti as well as AMD's RX 7600. Most interesting of all is a small addition down at the very bottom of the list, "Preliminary support for AMD Storm Peak platform." "Storm Peak" is AMD's yet to be announced Ryzen Threadripper 7000 series which will feature "Zen 4" and hopefully heat up competition in the HEDT market. No detailed specifications or information on SKUs have been released yet with "Storm Peak" expected to receive a proper announcement sometime in Q3 2023. The mention on CPU-Z suggests that the platform is nearing market readiness, and possibly that the folks at CPUID have been seeded samples or specifications to prepare with. Threadripper 7000 is expected to be released on yet another new socket, TR5, and has been rumored to be coming in both HEDT and workstation variants.

Intel brought competition to the HEDT market for the first time in nearly 4 years with the release of their Sapphire Rapids Xeon W range of processors back in February. Xeon W features unlocked SKUs tackling AMD's Threadripper 5000 series from top to bottom; going as high as the 56-core Xeon w9-3495X at a blistering $5,889 USD to as low as ~$1,000 USD for the 12-core Xeon w5-2455X. Intel also interspersed some lower cost locked SKUs to allow system integrators to offer the new platform as workstations to the prosumer market that generally cares little about overclocking. With Intel competing directly with Threadripper again it was expected that it wouldn't be long before AMD would be cooking up a response with their latest and greatest.

AMD Ryzen 9 7900X3D, the 12-core/24-thread Socket AM5 processor that's been playing middle-child to the popular 8-core 7800X3D and 16-core 7950X3D flagship, just got a major retailer price-cut. It can now be had for as low as $499, down from its launch price of $599. The chip could be briefly available last month at $549. The $499 price is available on Newegg, where the chip is listed at $589.99, but with the promo-code "MDSCS2343," that shaves $90 off, you arrive at $499. The Ryzen 9 7900X3D is a 12-core/24-thread processor featuring 3D Vertical Cache technology on one of its two CCDs. The processor hence has 128 MB of L3 cache, besides 1 MB of dedicated L2 cache per core.

AMD's cheapest Zen 4 X3D processor is shaping up to be its most popular. Sales numbers from Germany's Mindfactory posted by TechEpiphany seemingly shows the recently launched Ryzen 7 7800X3D outselling last year's Ryzen 7 5800X3D nearly 2:1, with 4,720 7800X3Ds selling to the 5800X3D's 2,510 over a few week period. While these figures show sales for only a single region, evidence for this momentum is reflected in other regional retailers as well as some global outlets. On Amazon, for example, the 7800X3D has made a frequent appearance on the top 10 best selling CPUs list, with the rest of the Zen 4 lineup trailing well behind. Newegg reports the 7800X3D to be among the top 5 best selling CPUs on the site at time of writing. Microcenter also shows the 7800X3D and 5800X3D side-by-side in seventh and eighth places respectively for popularity.

Despite recent troubles with the AM5 platform and Zen 4 X3D processors, the Ryzen 7 7800X3D is proving to be quite a success for AMD. The 7800X3D in our review was shown to be one of the most efficient processors we've ever tested, and offered gaming performance at or near the top of the charts across the gauntlet of games and resolutions thrown at it. The staggered release of the 7000X3D lineup, with the 7950X3D and 7900X3D launching first and the 7800X3D launching later, gave early signals that AMD knew what they had and wanted to push as many early adopters away from the better value chip as they could. Pricing for the Ryzen 7 7800X3D has been steady since it released, however we've already seen retailers offering discounts on the Ryzen 9 7950X3D and Ryzen 9 7900X3D, as they presumably struggle to sell as well as the more aggressively positioned 7800X3D.