AMD is readying a successor to its Ryzen 7045 series "Dragon Range" mobile processor for gaming notebooks and portable workstations. While we don't know its processor model naming yet, the chip is codenamed "Fire Range." We are learning that it will retain the FL1 package as "Dragon Range," which means it will be pin-compatible. This would significantly reduce development costs for notebook OEMs, as they can simply carry over their mainboard designs from their notebooks based on "Dragon Range."

"Fire Range" is essentially a mobile BGA version of the upcoming Ryzen 9000 "Granite Ridge" desktop processor. The FL1 package measures 40 mm x 40 mm in size, and has substrate for two CCDs and a cIOD, just like the desktop chip. "Fire Range" hence features one or two 4 nm "Zen 5" CCDs, depending on the processor model, and the 6 nm client I/O die. Much like "Dragon Range," the "Fire Range" chip will lack support for LPDDR5, and rely on conventional PC DDR5 memory in the SO-DIMM or CAMM2 form-factors. Besides the CPU core count consisting exclusively of full-sized "Zen 5" cores, the main flex for "Fire Range" over "Strix Point" will be its 28-lane PCIe Gen 5 root-complex, which can wire out the fastest discrete mobile GPUs, as well as drive multiple M.2 NVMe slots with Gen 5 wiring, and other high-bandwidth devices, such as Thunderbolt 4, USB4, or Wi-Fi 7 controllers wired directly to the processor.

In a statement published today shortly after the release of a batch of new Zen 5 architecture details, AMD's computing and graphics SVP Jack Huynh released a statement regarding a delay to the release of the Ryzen 9000 processors based on Zen 5. Originally set to launch in just one week on July 31st, the processors have now been pushed back to a staggered release on August 8th and August 15th; one and two weeks after the initial launch window. AMD supposedly found some of the launch inventory processors did not go through proper testing procedures before being shipped out, and AMD is recalling those processors before any potential problems could have a chance to affect the first customers to buy the new chips.

The statement is as follows:

We appreciate the excitement around Ryzen 9000 series processors. During final checks, we found the initial production units that were shipped to our channel partners did not meet our full quality expectations. Out of an abundance of caution and to maintain the highest quality experiences for every Ryzen user, we are working with our channel partners to replace the initial production units with fresh units. As a result, there will be a short delay in retail availability. The Ryzen 7 9700X and Ryzen 5 9600X processors will now go on sale on August 8th and the Ryzen 9 9950X and Ryzen 9 9900X processors will go on-sale on August 15th. We pride ourselves in providing a high-quality experience for every Ryzen user, and we look forward to our fans having a great experience with the new Ryzen 9000 series.

AMD in its architecture deep-dive Q&A session with the press, confirmed that the "Zen 5" and "Zen 5c" cores on the "Strix Point" silicon only feature 256-bit wide FPU data-paths, unlike the "Zen 5" cores in the "Granite Ridge" Ryzen 9000 desktop processors. "The Zen 5c used in Strix has a 256-bit data-path, and so does the Zen 5 used inside of Strix," said Mike Clark, AMD corporate fellow and chief architecture of the "Zen" CPU cores. "So there's no delta as you move back and forth [thread migration between the Zen 5 and Zen 5c complexes] in vector throughput," he added.

It doesn't seem like AMD disabled a physically available feature, but rather, the company developed a variant of both the "Zen 5" and "Zen 5c" cores that physically lack the 512-bit data-paths. "And you get the area advantage to be able to scale out a little bit more," Clark continued. This suggests that the "Zen 5" and "Zen 5c" cores on "Strix Point" are physically smaller than the ones on the 4 nm "Eldora" 8-core CCD that is featured in "Granite Ridge" and some of the key models of the upcoming 5th Gen EPYC "Turin" server processors.

AMD "Granite Ridge" is codename for the four new Ryzen 9000 series desktop processors the company plans to launch on July 31, 2024. The processor is built in the Socket AM5 package, and is meant to be backwards compatible with AMD 600-series chipset motherboards, besides the new 800-series chipset ones that will launch alongside. "Granite Ridge" is a chiplet-based processor, much like the Ryzen 7000 "Raphael," Ryzen 5000 "Vermeer," and Ryzen 3000 "Matisse." AMD is carrying over the 6 nm client I/O die over from "Raphael" in an effort to minimize development costs, much in the same way it carried over the 12 nm cIOD for "Vermeer" from "Matisse."

The SoC I/O features of "Granite Ridge" are contemporary, with its awesome 28-lane PCI-Express Gen 5 root complex that allows a PCI-Express 5.0 x16, two CPU-attached M.2 Gen 5 slots, and a Gen 5 x4 chipset bus. There's also a basic integrated graphics solution based on the older RDNA 2 graphics architecture; which should make these processors fit for all use-cases that don't need discrete graphics. The iGPU even has multimedia accelerators, an audio coprocessor, a display controller, and USB 3.2 interfaces from the processor.

As AMD prepares to roll out its next-generation Ryzen 9000 series of CPUs based on Zen 5 architecture, we are starting to see some systems being tested by third-party OEMs and system integrators. Today, we have Geekbench 6 scores of the Ryzen 9 9900X CPU, and the 12-core, 24-thread processor that has demonstrated impressive performance gains. Boasting a base clock of 4.4 GHz and a boost clock of up to 5.6 GHz, the CPU features only 120 W TDP, a significant reduction from the previous 170 W of the previous generation. In Geekbench 6 tests, the Ryzen 9 9900X achieved a single-core score of 3,401 and a multicore score of 19,756.

These results place it ahead of Intel's current flagship Core i9-14900KS, which scored 3,189 points in single-core performance. Regarding multicore tasks, the i9-14900K scored 21,890 points, still higher than AMD's upcoming 12-core SKU. The benchmark of AMD's CPU was conducted on an ASUS ROG Crosshair X670E Gene motherboard with 32 GB of DDR5 memory. As anticipation builds for the official release, these early benchmarks suggest that AMD will deliver a compelling product that balances high performance with improved energy efficiency. The top tier models will still carry a 170 W TDP, while some high-end and middle-end SKUs get a TDP reduction like the Ryzen 7 9700X and Ryzen 5 9600X dial down to 65 W, decreased from 105 W in their previous iterations.

AMD is preparing to release its next generation of high-performance CPUs, the Ryzen 9000X3D series, and rumors are circulating about potential increases in stacked L3 cache. However, a recent report from Wccftech suggests that the upcoming models will maintain the same 64 MB of additional 3D V-cache as their predecessors. The X3D moniker represents AMD's 3D V-Cache technology, which vertically stacks an extra L3 cache on top of one CPU chiplet. This design has proven particularly effective in enhancing gaming performance, leading AMD to market these processors as the "ultimate gaming" solutions. According to the latest information, the potential Ryzen 9 9950X3D would feature 16 Zen 5 cores with a total of 128 (64+64) MB L3 cache, while a Ryzen 9 9900X3D would offer 12 cores with the same cache capacity. The Ryzen 7 9800X3D is expected to provide 96 (32+64) MB of total L3 cache.

Regarding L2, the CPUs feature one MB of L2 cache per core. Perhaps the most exciting development for overclockers is the reported inclusion of full overclocking support in the new X3D series. This marks a significant evolution from the limited options available in previous generations, potentially allowing enthusiasts to push these gaming-focused chips to new heights of performance. While the release date for the Ryzen 9000X3D series remains unconfirmed, industry speculation suggests a launch window as early as September or October. This timing would coincide with the release of new X870 (E) chipset motherboards. PC enthusiasts would potentially wait to match the next-gen CPU and motherboards, so this should be a significant upgrade cycle for many.

AMD's upcoming Ryzen 9000 series "Granite Ridge" desktop processors based on the "Zen 5" microarchitecture will see a slight improvement in memory overclocking capabilities. A chiplet-based processor, just like the Ryzen 7000 "Raphael," "Granite Ridge" combines one or two "Zen 5" CCDs, each built on the TSMC 4 nm process, with a client I/O die (cIOD) built on the 6 nm node. The cIOD of "Granite Ridge" appears to be almost identical to that of "Raphael." This is the chiplet that contains the processor's DDR5 memory controllers.

As part of the update, Ryzen 9000 "Granite Ridge" should be able to run DDR5-6400 with a 1:1 ratio between the MCLK and FCLK domains. This is a slight increase from the DDR5-6000 sweetspot speed of Ryzen 7000 "Raphael" processors. AMD is reportedly making it possible for motherboard manufacturers and prebuilt OEMs to enable a 1:2 ratio, making it possible to run high memory speeds such as DDR5-8000, although performance returns with memory speeds would begin to diminish beyond the DDR5-6400 @ 1:1 setting. Memory manufacturers should launch a new wave of DDR5 memory kits with AMD EXPO profiles for DDR5-6400.

As we're getting close to the launch of AMD's 9000-series Ryzen processors, local retailers have already started to put the new CPUs up for pre-order and this gives us a first glimpse into the pricing we can expect. The first company to do so in Europe is Slovenian retailer Funtech, which has put up all four SKUs on its site. For those not familiar with European pricing, Slovenia has a VAT or sales tax rate of 22 percent, which obviously makes the pricing higher than in the US and some other countries. As Funtech also sells AMD's current CPUs, we can also get an idea of how much more the new CPUs will cost, at least compared to what the online retailer sells the equivalent 7000-series models for.

Starting from the bottom, the Ryzen 5 9600X goes for €310 (US$332) and the shop has the Ryzen 7 7600X up for sale at €212. The Ryzen 7 9700X goes for €400 (US$429), whereas the Ryzen 7 7700X is sold for €305. The Ryzen 9 9900X is listed at €500 (US$536) with the Ryzen 9 7900X at €392. Finally the Ryzen 9 9950X is listed at €660 (US$707), compared to €510 for the Ryzen 9 7950X. This is in line with earlier leaked pricing from the Philippines and with the VAT removed, we end up close to proposed MSRP pricing by various leakers over the past couple of months, or even somewhat lower. If anything, it doesn't look like AMD is going to increase the MSRP over the 7000-series of Ryzen processors.

AMD's Ryzen 9000 "Granite Ridge" family of Socket AM5 desktop processors based on the "Zen 5" microarchitecture arrive in July, with four processor models in the lead—the 9950X 16-core, the 9900X 12-core, the 9700X 8-core, and the 9600X 6-core. AMD is building the CCDs (CPU core dies) of these processors on the slightly newer 4 nm foundry node, compared to the 5 nm node that the Ryzen 7000 series "Raphael" processors based on "Zen 4" are built on; and generally lowered the TDP values of all but the top 16-core part. The company is reportedly reconsidering these changes, particularly in wake of company statements that the 9000X series may not beat the 7000X3D series in gaming performance, which may have sullied the launch, particularly for gamers.

From the company's Computex 2024 announcement of the Ryzen 9000 series, the 9950X has the same 170 W TDP as its predecessor, the 7950X. The 9900X 12-core part, however, comes with a lower 120 W TDP compared to the 170 W of the 7900X. Things get interesting with the 8-core and 6-core parts. Both the 9700X 8-core, and the 9600X 6-core chips come with 65 W TDP. The 9700X succeeds the 7700X, which came with a 105 W TDP, while the 9600X succeeds the 7600X that enjoys the same 105 W TDP. The TDP and package power tracing (PPT) values of an AMD processor are known to affect CPU boost frequency residence, particularly in some of the higher core-count SKUs. Wccftech reports that AMD is planning to revise the specifications of at least the Ryzen 7 9700X.

AMD's Zen 5 Ryzen 9000 "Granite Ridge" series desktop processors are expected to be released on July 31st. The Ryzen AI 300 "Strix Point" series notebooks will hit stores earlier, on July 15th. This information comes from product listings on various e-commerce sites, as reported by ITHome and Videocardz. Additionally, a BestBuy listing shows one ASUS laptop with a Ryzen AI 300 "Strix Point" CPU launching on July 15th, ahead of the desktop processor release.

ITHome also reported potential retail prices for the AMD Ryzen 9 series CPUs, at least for the Philippine market. Worldwide prices may be lower or higher depending on taxes in each region.

• Ryzen 9 9950X: $648
• Ryzen 9 9900X: $597
• Ryzen 7 9700X: $409
• Ryzen 5 9600X: $315

AMD's upcoming Ryzen 9000 "Granite Ridge" desktop processors based on the "Zen 5" microarchitecture won't beat the Ryzen 7000X3D series at gaming workloads, said Donny Woligroski, the company's senior technical marketing manager, in an interview with Tom's Hardware. The new "Zen 5" chips, such as the Ryzen 7 9700X and Ryzen 9 9950X, will come close to the gaming performance of the 7800X3D and 7950X3D, but won't quite beat it. The new processors, however, will offer significant generational performance uplifts in productivity workloads, particularly multithreaded workloads that use vector extensions such as VNNI and AVX512. The Ryzen 7 7800X3D remains the fastest gaming desktop processor you can buy, it edges out even Intel's Core i9-14900KS, in our testing.

Given this, we expect the gaming performance of processors like the Ryzen 7 9700X and Ryzen 9 9950X to end up closer to those of the Intel Core i9-13900K or i9-14900K. Gamers with a 7000X3D series chip or even a 14th Gen Core i7 or Core i9 chip don't have much to look forward to. AMD confirmed that it's already working on a Ryzen 9000X3D series—that's "Zen 5" with 3D V-cache technology, and is sounds confident of holding on to the title of having the fastest gaming processors. This doesn't seem implausible.

An AMD Ryzen 5 9600X "Zen 5" processor engineering sample has been overclocked to 5.70 GHz on all cores, and put through the CPU-Z Benchmark. Here, the chip is found to score 871 points in the single-thread benchmark, and 7096 points in the multithreaded benchmark. The overclock to 5.70 GHz is significant, as this is the maximum boost frequency of the upcoming Ryzen 9 9950X flagship part. The single-thread benchmark highlights that "Zen 5" has a similar IPC to the "Raptor Cove" P-core of the Intel Core i9-14900K processor, while the 7096 points multithreaded score is higher than the that of the Ryzen 7 5800X "Zen 3," meaning that AMD is overcoming the deficit of two whole cores (33% of the core-count of the 9600X) with just IPC and faster memory. AMD is expected to launch the Ryzen 9000 series desktop processors in July 2024.

BIOSTAR, a leading manufacturer of motherboards, graphics cards, storage devices, and IPC solutions, is excited to introduce its COMPUTEX Taipei 2024 product highlights. BIOSTAR's COMPUTEX showcase features all-new AI PCs powered by Intel Arc graphics cards, the newest high-end AMD X870E motherboards, graphics cards, storage units, and industrial computing solutions.

Catching the eye of many visitors at the show are BIOSTAR's latest flagship motherboards, the BIOSTAR X870E VALKYRIE motherboard with AMD AM5 X870E chipset, built to run the latest Ryzen 9000 series processors. For Intel platform, BIOSTAR's newest VALKYRIE and SILVER motherboards, ideal for gamers, content creators and PC enthusiasts, engineered to deliver superior performance and a next-level user experience.

At its Computex 2024 booth, AMD showed us their latest flagship desktop processor, the AMD Ryzen 9 9950X. This 16-core/32-thread beast is powered by the latest "Zen 5" microarchitecture, which promises a 16% IPC uplift over "Zen 4." AMD is also building the CCD (CPU complex dies) on the slightly upgraded 4 nm foundry node. The 9950X boosts up to 5.70 GHz, and AMD claims that it beats the Intel Core i9-14900K by near double-digit percentages in gaming, and significantly in multithreaded productivity. The chip is drop-in compatible with any AMD 600-series chipset motherboard with the latest BIOS. AMD plans to launch this processor in July. Given that Intel today announced that "Arrow Lake" will come out in Q4, the Ryzen 9000 series could enjoy free rein in the market for at 4 months.

BIOSTAR, a leading manufacturer of motherboards, graphics cards, and storage devices, proudly announces the launch of the brand-new X870E VALKYRIE motherboard. Expertly crafted to meet the exacting demands of content creators and professional gamers, BIOSTAR's X870E VALKYRIE delivers unparalleled reliability and next-gen features with superior performance.

BIOSTAR's X870E VALKYRIE motherboard is a game-changer for content creators. Its smart layout and extensive hardware support effortlessly handle intensive workloads, such as crafting immersive 3D worlds, designing breathtaking animations, and editing high-resolution videos. This ensures that creative professionals can bring their visions to life with unmatched precision and efficiency, pushing the boundaries of their work.Updated Jun 4, 2024 - Added pictures from BIOSTAR booth at Computex (see below)

While wandering through the Computex showrooms, our little spies spotted something interesting at the ASRock stand: an extensive lineup of motherboards built around the AMD X870 and X870E chipsets. The six models from the ASRock, Pro, Steel, Phantom Gaming, and the legendary Taichi families support the latest AMD Ryzen 9000, 8000, and 7000 series processors. We had the opportunity to see them live on display and rushed to present them one by one, complete with pictures and main specifications.Now we're going to look further in detail:

MSI is thrilled to announce the launch of the latest AMD Ryzen 9000 Series processors, set to debut on the new X870 chipsets. Powered by cutting-edge 4 nm CPU process technology, the Ryzen 9000 Series promises to revolutionize the computing landscape with unparalleled performance, efficiency, and versatility for gamers and content creators. At launch, there will be four new AMD Ryzen 9000 Series CPUs available: the Ryzen 9 9950X, 9900X, Ryzen 7 9700X, and Ryzen 5 9600X. They are compatible with the AM5 socket, existing AMD 600 Series motherboards and Ryzen 9000 Series processors can seamlessly integrate with each other by updating to the latest BIOS, readily available on MSI's product support page.

At this year's Computex 2024, visitors to the MSI booth will have the opportunity to witness two models firsthand, the MAG X870 TOMAHAWK WIFI and PRO X870-P WIFI. Additionally, a comprehensive lineup of features awaits users across the MPG and MEG series, ensuring a diverse range of options to suit every need. Here is a sneak-peak of features that you can expect to see on the upcoming MSI's X870 motherboards.

AMD is debuting its Ryzen 9000 series "Granite Ridge" desktop processors powered by the "Zen 5" microarchitecture later this year. These chips are compatible with existing AMD 600-series chipset motherboards with a simple UEFI firmware update, but the company is also taking the opportunity to launch the AMD 800-series chipset family alongside these chips. The lineup will be led by the AMD X870E, followed by the X870. These two chipsets should launch immediately alongside the new processors, but will later be joined by the AMD B850 and B840. There's no entry-level chipset planned, the AMD A620 will continue to hold the fort for AMD here. There is an interesting new mix of product differentiation, according to a leaked GIGABYTE slide scored by VideoCardz.

If you recall, the X670E and X670 were differentiated by a lack of Gen 5 PCI-Express x16 PEG slots on the X670, which instead was limited to Gen 4 on the PEG slot. The X670 still had Gen 5 NVMe slots attached to the CPU, and had practically the same I/O features as the X670E, including the same counts of downstream PCIe Gen 4 general purpose lanes. Both the X670E and X670 are 2-chip solutions, in that the second chip is a connected to the general purpose PCIe lanes of the first chip, which in turn is connected to the processor. Things are going to change with the 800-series. The top-spec X870E will be a 2-chip solution, with PCIe Gen 4 general purpose lane counts resembling the X670E; but the X870 is a single-chip solution that more closely resembles the B650E in I/O. The X870 (non-E) now gives you Gen 5 PCI-Express x16 PEG, just like the X870E and the B650E, and at least one Gen 5 x4 NVMe slot attached to the CPU, but has fewer downstream Gen 4 general purpose PCIe lanes than the X670. Both the X870E and X870 assure USB4 connectivity, and support CPU overclocking. Things get very interesting in the mid-range.

AMD's next-generation Ryzen 9000 series "Granite Ridge" desktop processors based on the "Zen 5" microarchitecture, is rumored to launch in late-July, 2024, according to multiple sources in the ChipHell tech forums. The first four SKUs in the processor series will include one each of 16-core, 12-core, 8-core, and 6-core, spanning the Ryzen 9, Ryzen 7, and Ryzen 5 series, just like the company's Ryzen 7000 series debut. The company could unveil these processors in its 2024 Computex keynote address early next month, talking about their features and performance in broad strokes, while we get technical previews in the run-up to the late-July launch.

A late-July launch of the Ryzen 9000 series "Granite Ridge" processors should also mean that the various motherboard manufacturers will showcase their upcoming motherboards based on the AMD X870 desktop chipset at Computex. Ryzen 9000 series are built in the existing Socket AM5 package, and should be compatible with existing AMD 600-series chipset motherboards. In fact, most motherboard vendors have already released UEFI firmware updates that include Ryzen 9000 series processor compatibility. Those buying a Ryzen 9000 series processor with an AMD 600-series chipset motherboard can simply take advantage of the USB BIOS Flashback feature that's available on most motherboards, including the entry-level ones.

AMD on Monday said that its 2024 Computex Keynote address slated for June 3, will see a slew of next-generation product announcements. "Join us as Dr. Lisa Su delivers the Computex 2024 opening keynote and shares the latest on how AMD and our partners are pushing the envelope with our next generation of high-performance PC, data center and AI solutions," the brief release said.

AMD is widely expected to unveil its next-generation Ryzen 9000 "Strix Point" mobile processors for AI PCs capable of powering the recently announced Microsoft Copilot+, its next-generation Ryzen 9000 "Granite Ridge" desktop processors, its 5th Generation EPYC "Turin" server processors, and possibly even its next-generation Radeon RX RDNA 4 generation. At the heart of all its processor announcements is the new "Zen 5" CPU microarchitecture that's expected to introduce an over 10% IPC improvement with significant improvements in AVX512 performance over "Zen 4," which should benefit certain kinds of AI workloads.

AMD's next-generation Ryzen 9000 "Strix Point" mobile processor, which succeeds the current Ryzen 8040 "Hawk Point" and Ryzen 7040 "Phoenix," is confirmed to feature a CPU core-configuration of 12-core/24-thread, according to a specs-leak by HKEPC citing sources among notebook OEMs. It appears like Computex 2024 will be big for AMD, with the company preparing next-gen processor announcements across the desktop and notebook lines. Both the "Strix Point" mobile processor and "Granite Ridge" desktop processor debut the company's next "Zen 5" microarchitecture.

Perhaps the biggest takeaway from "Zen 5" is that AMD has increased the number of CPU cores per CCX from 8 in "Zen 3" and "Zen 4," to 12 in "Zen 5." While this doesn't affect the core-counts of its CCD chiplets (which are still expected to be 8-core), the "Strix Point" processor appears to use one giant CCX with 12 cores. Each of the "Zen 5" cores has a 1 MB dedicated L2 cache, while the 12 cores share a 24 MB L3 cache. The 12-core/24-thread CPU, besides the generational IPC gains introduced by "Zen 5," marks a 50% increase in CPU muscle over "Hawk Point." It's not just the CPU complex, even the iGPU sees a hardware update.

GIGABYTE TECHNOLOGY Co. Ltd, a leading manufacturer of motherboards, graphics cards, and hardware solutions, released the latest AGESA 1.1.7.0 beta bios for the coming AMD Ryzen 9000 series processors boot-up support on GIGABYTE AM5 X670, B650, A620 motherboards, and for present Ryzen 7000 and 8000 series processors as well.⁠ The AGESA 1.1.7.0 beta BIOS is now ready on the GIGABYTE official website, and the formal release will be in mid-May. Users can easily update the BIOS using GIGABYTE's ＠BIOS, Q-Flash, or Q-Flash Plus technology. For more update, please pay close attention to the official GIGABYTE website.

In yet another clear sign that we could see some action from AMD on the next-gen desktop processor front this Computex, motherboard maker MSI released its first beta UEFI firmware update that packs an AGESA microcode that reportedly supports the upcoming AMD Ryzen 9000 "Granite Ridge" processors. The "7D74v1D2 beta" firmware update for the MSI MPG B650 Carbon Wi-Fi motherboard encapsulates AGESA ComboPI 1.1.7.0 patch-A, with the description that it supports a "next-gen CPU," a reference to the Ryzen 9000 "Granite Ridge."

A successor to the Ryzen 7000 Raphael, the Ryzen 9000 Granite Ridge introduces the new "Zen 5" microarchitecture to the desktop platform, with CPU core counts remaining up to 16-core/32-thread. The new microarchitecture is expected to introduce generational increase in IPC, as well as improve performance of certain exotic workloads such as AVX-512. The processors are said to be launching alongside the new AMD 800-series motherboard chipset. If AMD is using Computex as a platform to showcase these processors, it's likely we might see the first of these motherboards as well.

Close monitoring of AMD engineering activities—around mid-February time—revealed the existence of a new set of patches for GNU Compiler Collection (GCC). At the time, news reports put spotlights on Team Red's "znver5" enablement—this target indicated that staffers were prepping Zen 5 processor microarchitecture with an expanded AVX instruction set (building on top of Zen 4's current capabilities). Phoronix's Michael Larabel has fretted over AMD's relative silence over the past month—regarding a possible merging of support prior to the stable release of GCC 14.

He was relieved to discover renewed activity earlier today: "AMD Zen 5 processor enablement has been merged to GCC Git in time for the GCC 14.1 stable release that will be out in the coming weeks. It was great seeing AMD getting their Zen 5 processor enablement upstreamed ahead of any Ryzen or EPYC product launches and being able to do so in time for the annual major GNU Compiler Collection feature release." Team Red is inching ever closer to the much anticipated 2024 rollout of next-gen Ryzen 9000 processors, please refer to a VideoCardz-authored timeline diagram (below)—"Granite Ridge" is an incoming AM5 desktop CPU family (reportedly utilizing Zen 5 and RDNA 2 tech), while "Strix Point" is scheduled to become a mobile APU series (Zen 5 + RDNA 3.5).

AMD's upcoming family of Ryzen 9000 series of processors on the AM5 platform will carry a new silicon SKU under the hood—Zen 5. The latest revision of AMD's x86-64 microarchitecture will feature a few interesting improvements over its current Zen 4 that it is replacing, targeting the rumored 10-15% IPC improvement. Thanks to the latest set of patches for GNU Compiler Collection (GCC), we have the patch set that proposes changes taking place with "znver5" enablement. One of the most interesting additions to the Zen 5 over the previous Zen 4 is the expansion of the AVX instruction set, mainly new AVX and AVX-512 instructions: AVX-VNNI, MOVDIRI, MOVDIR64B, AVX512VP2INTERSECT, and PREFETCHI.

AVX-VNNI is a 256-bit vector version of the AVX-512 VNNI instruction set that accelerates neural network inferencing workloads. AVX-VNNI delivers the same VNNI instruction set for CPUs that support 256-bit vectors but lack full 512-bit AVX-512 capabilities. AVX-VNNI effectively extends useful VNNI instructions for AI acceleration down to 256-bit vectors, making the technology more efficient. While narrow in scope (no opmasking and extra vector register access compared to AVX-512 VNNI), AVX-VNNI is crucial in spreading VNNI inferencing speedups to real-world CPUs and applications. The new AVX-512 VP2INTERSECT instruction is also making it in Zen 5, as noted above, which has been present only in Intel Tiger Lake processor generation, and is now considered deprecated for Intel SKUs. We don't know the rationale behind this inclusion, but AMD sure had a use case for it.