Colorful Technology Company Limited, a leading brand in gaming PC components, gaming laptops, and Hi-fi audio products, proudly presents the CVN B650M GAMING FROZEN motherboard. This motherboard is our first AMD AM5 motherboard that supports the AMD Ryzen 7000 Series and the latest AMD Ryzen 8000 Series processors that feature the groundbreaking AMD Ryzen AI technology as well as support for AVX-512.

The CVN B650M GAMING FROZEN supports the latest AMD Ryzen 8000G Series APUs with AMD Ryzen AI technology. It also supports the AMD Ryzen 7000 and AMD Ryzen 7000 X3D Series processors with 3D V-Cache Technology, as well as support for the future AM5 processors. AMD Ryzen AI brings the power of personal computing closer to you on an AI PC, unlocking a whole new level of efficiencies for work, collaboration, and innovation so that you can stay connected better with the world around you.

Colorful Technology Company Limited, a leading brand in gaming PC components, gaming laptops, and HiFi audio products, proudly announces the COLORFIRE MEOW R15 and MEOW R16 gaming laptops. Coming from the success and rising popularity of the COLORFIRE MEOW Series gaming desktop, the MEOW R15 and R16 gaming laptops are adorned with designs inspired by our beloved cat—Bobi. The laptop is littered with cat-inspired aesthetics from cat pawprints to the chic orange tabby cat color. The new MEOW Series gaming laptops are equipped with the latest AMD Ryzen 8000 Series processor designed for gaming, content creation, and entertainment. It also features the AMD Ryzen AI technology unlocking magical AI experiences.

Like a feline, the COLORFIRE MEOW R15 and R16 gaming laptops are fast and agile - swift in attacking enemies. Both laptops comes equipped with that new AMD Ryzen 7 8845HS processor with 8 cores and 16 threads, with a maximum boost clock of 5.1 GHz in a very efficient 45 W TDP power design. Designed for AI engine capabilities, its AMD Ryzen AI processor performance delivers up to 39 TOPS. For graphics, the MEOW R15 and MEOW R16 comes equipped with up to an NVIDIA GeForce RTX 4070 laptop GPU with up to 140 W maximum performance power.

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.

Skin temperature-aware power management (STAPM), is a 2014 feature introduced by AMD for its mobile processors that gets the on-die power management logic to take into account not just the processor's own temperatures (measured via on-chip thermal diodes); but also the physical surface temperature of the laptop itself, by reading off temperature probes mounted on the laptop chassis. This ensures that laptops don't get uncomfortably hot for the user, and the processor could do its bit to bring temperatures down. Every desktop APU released by AMD since 2014 has been a case of mobile processor silicon being adapted for the desktop platform by simply disabling certain I/O interfaces and features irrelevant to desktops, such as battery management GPIO, LPDDR memory interfaces, image processing, sensor suite, etc. One such feature is STAPM.

Gamers Nexus discovered that when creating the Ryzen 8000G desktop APUs, AMD forgot to properly disable STAPM, and this has been impacting the processor's CPU and iGPU boosting behavior under heavy load, where temperature-triggered clock speed throttling is engaged undesirably. AMD confirmed the Gamers Nexus discovery, and stated that it can be fixed through a motherboard UEFI firmware (BIOS) update; and that it will work with its desktop motherboard partners to get these out. The highest performance delta observed by GN between an 8000G processor with STAPM and one with its STAPM disabled (probably using an AMD CBS setting); is 16%; and so those with 8000G processors may want to look out for firmware updates from their motherboard vendors.

AMD has revealed the full specs of its upcoming Ryzen 8000G APUs and it turns out that the Zen 4c cores aren't clocking as high as the Zen 4 cores in the Ryzen 5 8500G and Ryzen 3 8300G. We should point out that the 8300G has a singular Zen 4 core and three Zen 4c Cores here, so there's no confusion. The Zen 4 cores in the 8500G have a base clock of 4.1 GHz, while the 8300G comes in at 4.0 GHz, with both of the APU's Zen 4c cores having a base clock of 3.2 GHz. Oddly enough, AMD lists the overall base clock of the 8500G as 3.5 GHz and the 8300G as 3.4 GHz with a notice that reads "Represents the average effective base frequency of all cores." AMD is in other words averaging the clock speeds of the two different cores to come up with an approximate base clock.

The Zen 4 cores in the 8500G boost up to 5 GHz, with the 8300G boosting to 4.9 GHz, whereas the Zen 4c cores in the 8500G boost up to 3.7 GHz and in the 8300G to 3.6 GHz. Here AMD doesn't provide an estimated frequency equivalent. Despite being budget models in the Ryzen 8000G-series of APUs, both SKUs get two USB4 ports with full 40 Gbps capabilities, plus a pair of USB 3.2 Gen 2 (10 Gbps) ports. Furthermore the Radeon 740M GPU will be clocked at 2.8 GHz in both APUs, but both SKUs are limited to a mere four graphics cores, whereas the Ryzen 5 8600G gets eight at the same clock speed and the Ryzen 7 8700G gets 12 at 2.9 GHz. All four APUs also support DisplayPort 2.1.

At CES, AMD didn't give away too many technical details of its upcoming Ryzen 8000G-series APUs, but details are starting to trickle out and it's not all good news. As has been known for some time, AMD is using two different chips to make the Ryzen 8000G APUs and they're known as the Phoenix 1 and Phoenix 2, where the Phoenix 2 parts feature Zen 4c cores, which are not present in the Phoenix 1 APUs. This in and of itself shouldn't be a huge issue, although the Zen 4c CPU cores can be slightly slower in some tasks based on testing of AMD's EPYC server parts.

However, PCGamesN noticed that Gigabyte has posted the full specs for the B650E Aorus Elite X AX Ice motherboard and it looks like there's a much bigger difference between the Phoenix 1 and Phoenix 2 based APUs. Namely, the Phoenix 2 APUs have fewer PCIe lanes and as such are limited to two PCIe 4.0 lanes for the secondary NVMe slot. As if this wasn't bad enough, the Phoenix 2 APUs only have four PCIe 4.0 lanes for add-in GPUs, whereas the Phoenix 1 APUs have eight. This is very likely to lead to reduced performance if a higher-end GPU is used with such an APU. Note that this will vary depending on the motherboard design, but many B650/B650E boards feature a similar design with regards to the PCIe lanes coming from the CPU socket. Luckily, it's easy to avoid this issue, as the Ryzen 5 8600G and the Ryzen 7 8700G are both Phoenix 1 designs, whereas the Ryzen 5 8500G is the only Phoenix 2 design available in retail, as the Ryzen 3 8300G is an OEM only part.

During CES, PCWorld had a chat with Donny Woligroski, Technical Marketing Manager at AMD. The new Ryzen 8000G APUs were a large part of what covered in the almost 17 minute long video and PCWorld got some details that weren't covered in the official press materials that AMD released at the launch. The officially supported memory speed listed by AMD is DDR5-5600, which is a step up from the official speed of DDR5-5200 for the Ryzen 7000-series CPUs.

However, we know that the Ryzen 7000-series is more than happy to use faster memory and as before, AMD has an unofficial memory sweet spot and just as with the Ryzen 7000-series, the Ryzen 8000G-series of APUs has a memory sweet spot of DDR5-6000. That said, it's unknown if the Ryzen 8000G-series will support faster memory or will start flaking out above DDR5-6000, like many Ryzen 7000-series CPUs do unless you switch to a 1:2 ratio. Woligroski is also pointing out that dual-channel is a must to get the best performance out of the new APUs, although this shouldn't really surprise anyone. Full video after the break.

ASUS Republic of Gamers (ROG) today announced the 2024 Zephyrus G14 and Zephyrus G16, the latest in an illustrious lineup of supremely powerful thin-and-light gaming laptops. These machines feature a new CNC-machined aluminium chassis, a customizable Slash Lighting array, and a brand-new Platinum White colorway, while cutting-edge AI accelerated silicon from Intel, AMD, and NVIDIA stand ready to push gamers and creators to new heights of performance. Both the Zephyrus G14 and G16 come equipped with the ROG Nebula Display, stunningly color-accurate OLED panels that are also G-SYNC capable for incredible gaming experiences. Ultra-efficient cooling technology, including tri-fan technology, liquid metal, and vapor chambers on select models enable the Zephyrus G14 and G16 to breathe easily despite their ultra-portable designs.

Brand-new chassis design
The 2024 Zephyrus G14 and Zephyrus G16 have been completely redesigned inside and out. Both machines boast all-new and all-aluminium CNC-machined chassis for the perfect mix of weight reduction, structural rigidity, and increased chassis space. This allows for an edge-to-edge keyboard design, as well as the inclusion of larger and louder speakers with superior bass response down to 100 Hz. The speakers are 25% larger than the previous generation, with a 47% volume increase for more immersive audio experiences than ever before. The Zephyrus G14 and G16 also come with larger individual keycaps and a larger touchpad, for superior typing, precision scrolling, and fluid gaming. Both the 2024 Zephyrus G14 and Zephyrus G16 ship with three months of Xbox Game Pass Ultimate, providing access to a library of hundreds of great games.

ASRock proudly announce its AM5 motherboards now support the latest AMD Ryzen 8000 series processors with a BIOS update. AMD Ryzen 8000 series processors are built on Zen 4 and AMD RDNA 3 architecture, offering improved performance and computing efficiency per watt, thus providing enhanced gaming experience for consumers.

Additionally, the newest AMD Ryzen 7 5700X3D and 5700 processors as well as AMD Ryzen 5 5600GT/5500GT processors now can also be supported on ASRock AMD 500/400 series AM4 motherboards with a BIOS update. The latest BIOS is already available to download on ASRock website, be sure to update to the latest BIOS to enjoy the ultimate gaming experience.

GIGABYTE Technology, a leading global powerhouse in motherboards, graphics cards, and cutting-edge hardware solutions, proudly unveils the world's first motherboard designed to seamlessly support the native USB-C 40 Gbps signal when paired with the cutting-edge AMD Ryzen 8000 series processors.

"We are thrilled to introduce a motherboard that not only supports the cutting-edge AMD Ryzen 8000 series processors but also incorporates advanced features that cater to the evolving needs of our users. This marks a significant leap forward in terms of performance, user-friendliness, and design aesthetics." Said Jackson Hsu, Director of the GIGABYTE Channel Solutions Product Development Division.

GIGABYTE released UEFI firmware (BIOS) updates for its Socket AM5 motherboards encapsulating the AMD AGESA ComboAM5 PI 1.1.0.1a microcode. This latest version of AGESA has sparked speculation that some of AMD's upcoming Ryzen 8000G desktop APUs are in fact based on the newer "Hawk Point" silicon, and not "Phoenix." AMD released its Ryzen 8040 series "Hawk Point" mobile processors earlier this month, with a faster NPU that results in an up to 40% increase in AI interference performance over that of "Phoenix." "Hawk Point" is essentially identical to "Phoenix," including its first generation XDNA architecture based NPU, however the NPU's clock speed has been dialed up. If AMD is building some of its Ryzen 8000G desktop APU models on "Hawk Point" instead of "Phoenix," then we have our first solid hint that AMD is bringing Ryzen AI to the desktop platform, and that the Ryzen 8000G will end up being the first desktop processors with an NPU.

AMD is expected to be building at least two APU models based on the "Hawk Point" silicon, the Ryzen 7 8700G, and the Ryzen 5 8600G. The lower models, namely the 8500G and Ryzen 3 8300G, are expected to be based on the smaller "Phoenix 2" silicon, with a hybrid CPU that combines two "Zen 4" cores with up to four "Zen 4c" cores. The "Zen 4c" cores may feature an identical instruction set architecture (ISA) and IPC to the regular "Zen 4" cores, but have tighter Vcore limits, and operate at lower clock speeds. This makes the two available "Zen 4" cores the de facto "performance" cores, and AMD flags them as UEFI CPPC "preferred cores," ensuring the OS guides a bulk of its processing traffic to them. Both "Phoenix" and "Hawk Point" feature an identical CPU setup, with up to eight "Zen 4" cores.

Courtesy of serial leaker @momomo_us we now have an indication on potential pricing for AMD's upcoming 8000G-series of APUs for the AM5 socket. The Ryzen 8000G-series APUs are expected to use the same CPU cores as AMD's Zen 4 based Ryzen 7000-series CPUs, but paired with a new I/O design in a monolithic die. The leaker has provided pricing from what is said to be three different shops and for three different SKUs, with the Ryzen 5 7600 as the reference point in all three cases. All three shops list the Ryzen 5 7600 at a higher price than Amazon, so it's unlikely that we're looking at MSRP pricing here.

The Ryzen 5 8500G has a price range of US$190-240, followed by the Ryzen 5 8600G which comes in at US$240-310 and finally the Ryzen 7 8700G which is listed at US$340-440. The price span is rather large, which makes it impossible to draw any conclusions of what the MSRP will be. Tom's hardware managed to dig up a pair of retailers, including what appears to be the one with the lowest pricing in the leak, which is DirectDial. The other retailer that Tom's Hardware located was Zones, but that pricing doesn't match any of the initial leaks, but are somewhat towards the higher numbers. AMD is expected to announce the new series of APUs at CES early next year.

AMD continues to release new Ryzen 5000 series processor models for the Socket AM4 platform to this day, with new processors expected to launch next month. That's over 6 years of longevity for the platform, considering that AMD has extended official Ryzen 5000 series support all the way back to its first line of AM4 motherboards based on the 300-series chipset. The company plans a similar longevity for Socket AM5. In an interview with Overclockers UK, AMD's client channel business head David McAfee said "I think that we certainly recognized that the longevity of the AM4 platforms was one of the biggest reasons that led to the success of Ryzen and as we think and as we think about the future, 2025 and beyond, that decision to move to a next-generation of socket is one that's going to be really thought through really really carefully. We know the impact that moving to a new socket brings and we want to stay on AM5 for as long as we possibly can. We are firmly committed to 2025 and beyond and we will see how long that promise lasts beyond 2025."

AMD Socket AM5 is designed to deliver up to 230 W of package power, and has a contemporary I/O that includes a dual-channel DDR5 memory interface (4x 40-bit sub-channels); and 28 PCIe Gen 5 lanes (x16 PEG, two x4 NVMe, and x4 chipset bus), besides the usual SoC connectivity. With the upcoming Ryzen 8000G "Phoenix" APUs, we could expect to see that the socket even wires out modern display I/O such as DisplayPort 2.1 with USB type-C, and the bandwidth for 12-bit HDR up to 68 billion colors. AMD debuted Socket AM5 with the "Zen 4" microarchitecture, with "Zen 5" expected to launch in 2024. It's conceivable that the company's 2025 client architecture, "Zen 6," could also see its desktop presence on AM5, given that DDR5 memory and PCIe Gen 5 will remain relevant till at least that time.

ASUS began rolling out beta UEFI firmware updates for its Socket AM5 motherboards that contain the latest AMD AGESA 1.1.0.1 microcode. If you recall, ASRock had recently released its own firmware updates last month that feature AGESA 1.1.0.0. This would be the first widely released firmware from ASUS to support the upcoming Ryzen 8000G "Phoenix" and "Phoenix 2" desktop APUs; and the 4th AGESA release to do so. Version ComboAM5PI 1.1.0.1 contains a newer version of the system management unit (SMU) for "Phoenix" and "Phoenix 2," with SMU version 76.75.0, compared to version 76.72.0 with the older ComboAM5PI 1.1.0.0 that ASRock released in November.

The UEFI firmware updates by ASUS containing AGESA ComboAM5PI 1.1.0.1 are only being released for AMD B650/E and X670/E chipset motherboards, and only spanning the company's ROG, ROG Strix, TUF Gaming, and ProArt product lines, we haven't come across one for the Prime series, yet. It's important to reiterate here, that these are beta updates, and those with Ryzen 7000 "Raphael" processors don't stand to benefit from them, as the SMU for "Raphael" hasn't changed since ComboAM5PI 1.0.8.0. Check for the firmware updates in the Support section of the product pages of your motherboard on the ASUS website.

AMD is giving final touches to its Ryzen 7000G series desktop APUs that bring the 4 nm "Phoenix" monolithic processor silicon to the Socket AM5 desktop package. The star attraction with these processors is their large iGPU based on the latest RDNA3 graphics architecture, featuring up to 12 compute units worth 768 stream processors, and full DirectX 12 Ultimate feature-set support. These processors should be able to provide 720p to 1080p gaming with entry-medium settings, where you take take advantage of FSR for even better performance. At this point we don't know whether the Ryzen AI feature-set will make its way to the desktop platform. "Phoenix" features an 8-core/16-thread CPU based on the latest "Zen 4" microarchitecture.

An interesting development here is that not only is AMD bring the "Phoenix" silicon to the desktop platform, but the processor models highlighted in this leak reference the smaller "Phoenix 2" silicon. This chip is physically smaller, features a CPU with two "Zen 4" and four "Zen 4c" cores; and an iGPU that has no more than 4 compute units worth 256 stream processors. The OPN codes of at least three processor models surfaced on the web. These include the Ryzen 5 PRO 7500G (100-000001183-00), the Ryzen 5 7500G (100-00000931-00), and the Ryzen 3 7300G (100-000001187-00). No specs about these chips are known at this point. The PRO 7500G and regular 7500G are expected to feature the full 2+4 core configuration, while the 7300G could probably feature a 2+2 core configuration. If the company does plan a 7600G and 7700G, those would likely be based on "Phoenix" with 6 or 8 regular "Zen 4" cores.

In recent developments, Linux's open-source graphics ecosystem is making significant strides to accommodate AMD's upcoming RDNA3.5 architecture, also known as RDNA3+ or GFX11.5. Mesa 23.3, a library in the Linux graphics software stack, is now being updated for RDNA3.5, marking a substantial milestone. This upcoming update is particularly tailored for the impending Ryzen 8000 "Strix Point" APU series, which will incorporate the Navi 3.5 architecture. While AMD has maintained secrecy regarding specific enhancements accompanying this refresh, we expect decent performance improvements. This includes the anticipation that the Ryzen 8000 APUs will feature an increased number of Compute Units (CUs), where the current highest number is 12 CUs, and the increase could bump that figure to 16 CUs. The official announcement of the Ryzen 8000 series is expected in early 2024 when we will learn more about its GPU configuration and performance.

Based on details posted on Twitter/X by a pair of well known leakers, AMD appears to be working on a pair of different Ryzen 8000-series mobile processors. The previously known Strix Point is said to get up to four Zen 5 cores and eight Zen 5c cores, whereas the Strix Halo is said to get 16 Zen 5 cores, according to @Olrak29_. This is something that was posted by Moore's Law is Dead back in April as well, who claimed the chip will launch sometime at the end of 2024. MLID also suggested that the Strix Halo will feature a 40 CU GPU and a 256-bit LPDDR5X memory interface, making it a very different proposition from your average APU from AMD.

@kopite7kimi chimes in on Twitter to point out that "Strix Halo looks like a desktop Zen 5 with a different IOD." This is definitely something that would be possible for AMD to do and if we look at the MLID information, the Strix Halo processor appears to have something called a Mall Cache, which seems to be something of a catch all cache for the various components inside the chip, such as the AI Engine and the GPU. Time will tell if AMD delivers on Strix Halo or not, but this might be the first notebook processor that can handle gaming at a decent resolution without needing a discrete GPU. Then again, with a rumoured peak TDP of 120 W, this chip is also going to run hotter and draw more power than most mobile processors to date.

It looks like the monolithic silicon that succeeds "Phoenix," codenamed "Strix Point," will finally introduce an increase in CPU core counts for the thin-and-light and ultraportable mobile platforms. "Strix Point" is codename for the next-generation APU die being developed at AMD, which, according to a leaked MilkyWay@Home benchmark result, comes with a 12-core/24-thread CPU.

The silicon is identified by MilkyWay@Home with the OPN "AMD Eng Sample: 100-000000994-03_N," and CPU identification string "AuthenticAMD Family 26 Model 32 Stepping 0 -> B20F00." The "Strix Point" CPU could be the second time AMD has increased CPU core-counts per CCX. From "Zen 3" onward, the company increased the cores per CCX from 4 to 8, allowing a single "Zen 3" CCX on the "Cezanne" monolithic silicon to come with 8 cores. It's highly likely that with "Zen 5," the company is increasing the cores/CCX to 12, and that "Strix Point" has one of these CCXs.

As reported by Phoronix—references to GFX1150 & GFX1151 targets have been added to the AMDGPU LLVM backend/compiler, which seems to indicate that these are upcoming AMD APU models. AMD engineers have made to reference to GFX1150 as "Strix1" (full codename: Strix Point) in the past according to several sites, but the recent leak has GFX1151 mentioned for the first time.

Previous reports suggest that Team Red could be developing two Strix/Zen 5/RDNA 3.5 APUs with AI engine enhancements for laptops—a discovery of two separate GFX targets suggests that we are likely looking at different 12-core and 16-core models. The former is said to be a monolithic design with a TDP going up to 54 W. The 16-core "Strix Halo" (also known as "Starlak") is a very different type of product with leaks suggesting that it will have a maximum TDP of 120 W, and be based on a chiplet design. Zen 5 processor products are expected to arrive in the second half of 2024—with Granite Ridge filling in the desktop platform segment.

According to the Linux Kernel Mailing List, AMD started to enable next-generation processors by submitting patches to the Linux kernel. Codenamed Family 1Ah or Family 26 in decimal notation, the set of patches corresponds to the upcoming AMD Zen 5 core, which is the backbone of the upcoming Ryzen 8000 series processors. The patches have a few interesting notes, namely few of them being: added support for the amd64_edac (Error Detection and Correction) module and temperature monitoring; added PCI IDs for these models covering 00h-1Fh and 20h; added required support in k10temp driver.

The AMD EDAC driver also points out that the Zen 5 server CPUs will max out with 12-channel memory. Codenames 0-31 correspond to next-generation EPYC, while 40 to 79 are desktop and laptop SKUS. Interestingly, these patches are just the start, as adding PCI IDs and temperature drivers are basic enablement. With the 2024 launch date nearing, we expect to see more Linux kernel enablement efforts, especially with more complicated parts of the kernel.

AMD made its upcoming Ryzen 8000 CPU series official earlier this week during a "Meet the Experts" presentation - a roadmap demonstrates that this next-generation "Zen 5" + "Navi 3.5" mainstream desktop processor lineup is expected to arrive in 2024. Leaked information (from last month) points to "Granite Ridge" being AMD's codename for the upcoming processor product range, with high-end examples maxing out at 16 CPU cores across two CCDs. Benchleaks has recently spotted a pair of curious looking AMD engineering samples - entries have appeared on the einstein@home and LHC@home distributed computing platforms.

The mystery SKU seems to be a prototype CPU model that sports 8 cores and 16 threads - the AMD product number (OPN) for this unit is "00-000001290-11_N" which does not correspond to anything currently on the market. A Family ID of 26 is specified - Benchleaks theorizes that this number assignment is "Zen 5" specific - given that the existing Family 25 (19H) identifier was assigned to Zen 3 and 4. It should be noted that one of AMD's alleged test systems appears to have been running unreleased graphics hardware - a non-specific Radeon unit (with 12 GB of VRAM) is mentioned within einstein@home's information dump, this could be a potential mid-range RX 7000-series card. A Radeon RX 7900 GRE GPU with an unusually low video memory allocation of 16 GB is listed in LHC@home's entry.

AMD in one of its Meet the Experts presentations to the retail channel vendors, confirmed that the next-generation "Zen 5" architecture will see its desktop part branded under the Ryzen 8000 series. The company has known to skip a thousand-number sequence each generation for its mainstream-desktop series, the way it skipped Ryzen 4000 series nomenclature between the "Zen 2" based Ryzen 3000 "Vermeer" and "Zen 3" based Ryzen 5000 Vermeer; and more recently, between "Vermeer" and the "Zen 4" based Ryzen 7000 "Raphael," which makes this an interesting development. AMD's next-generation mainstream-desktop processor is expected to be codenamed "Granite Ridge," it will feature up to 16 "Zen 5" CPU cores across up to two CCDs. The processor I/O (and its 6 nm cIOD) is expected to be largely carried over, except that it could be upgraded with support for higher DDR5 memory speeds.

Another major disclosure is the very first mention of "Navi 3.5" This implies an incremental to the "Navi 3.0" generation (Radeon RX 7000 series, RDNA3 graphics architecture), which could even be a series-wide die-shrink to a new foundry node such as TSMC 4 nm, or even 3 nm; which scoops up headroom to dial up clock speeds. AMD probably finds its current GPU product stack in a bit of a mess. While the "Navi 31" is able to compete with NVIDIA's high-end SKUs such as the RTX 4080, and the the company expected to release slightly faster RX 7950 series to have a shot at the RTX 4090; the company's performance-segment, and mid-range GPUs may have wildly missed their performance targets to prove competitive against NVIDIA's AD104-based RTX 4070 series, and AD106-based RTX 4060 series; with its recently announced RX 7600 being based on older 6 nm foundry tech, and performing a segment lower than the RTX 4060 Ti.