Tuesday, 28 December 2021

Intel could be gunning for high-end GPU crown in 2023 with Arc Battlemage

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Intel’s Arc Battlemage GPUs, the second-gen products which will be the successor to its incoming Arc Alchemist graphics cards, will take on AMD and Nvidia at the high-end around mid-2023, according to the rumor mill.

This comes from YouTuber Moore’s Law Is Dead (MLID) whose sources (apparently with good track records – but take all this with lots of skepticism as ever) claim that Intel is becoming increasingly confident in its upcoming graphics cards. Indeed, the contention is that Intel is ‘very bullish’ no less, and that 2023 will be the ‘big year’ for Arc in terms of Battlemage really taking its rivals to task.

The theory is that when they come out around mid-2023, Battlemage graphics cards will beat Nvidia’s next-gen Lovelace products (which should arrive later in 2022). As for AMD, apparently the company isn’t really on the radar for Intel, and won’t be until Team Red can prove that it can crank out GPUs in quantities to rival Nvidia’s production.

The YouTuber also touches on Intel’s CPUs, saying sources are indicating that Team Blue expects Meteor Lake to pretty much leave AMD’s Ryzen chips in the dust, at least when it comes to laptop processors anyway.

Furthermore, MLID contends that 14th-gen processors will be out less than a year after Raptor Lake, the 13th-gen chips for 2022, which are expected to be a simple refresh of Alder Lake (whereas Meteor Lake is a whole new ballgame on 7nm).


Analysis: Alchemy with the drivers, and then a battle at the high-end

This certainly stokes the hype machine for Intel’s incoming graphics cards, and it’s very interesting to get a glimpse of Team Blue’s purported longer-term ambitions with Battlemage in 2023.

Before we get there, though, we obviously have Alchemist graphics cards coming potentially in March or April 2022. MLID makes it clear that Intel’s apparent focus for Alchemist or DG2 cards (Battlemage will be DG3) is the refinement of drivers, and getting that spot-on. This is something we’ve talked about here on TechRadar in the past, in terms of it being a crucial piece of the puzzle (as well as getting the hardware itself right, of course).

The other key for Arc Alchemist will be pricing, and we’re hopeful that Intel may go for the undercutting route as a way to break into the current GPU duopoly, bringing some much-needed more competitive pricing into play. That said, even having more cards available to buy will be a blessed relief in a time where GPU pricing has shot through the roof in a frankly ridiculous manner, and even low-end cards are priced at silly levels.

We can expect some interesting budget offerings from Alchemist, fortunately, and also from Nvidia – hopefully with an RTX 3050 desktop graphics card set to be unleashed in January, and maybe unveiled at CES 2022 – plus AMD is rumored to have its wallet-friendly RX 6500 XT ready to launch next month.

Via Wccftech



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Friday, 24 December 2021

Intel Arc GPUs could have a seriously neat trick for the future

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Intel’s Raja Koduri has been talking about the firm’s incoming Arc Alchemist GPUs, letting us know that the cards are now in the final stages of bug squashing, and also imparting some interesting info about future capabilities (plus, aside from this, a leaked game benchmark has recently been spotted – more on that later).

As VideoCardz reports, Koduri – who was streaming from an Arc Alchemist-powered PC – spoke to well-known streamer DrLupo on the topic of Alchemist cards, revealing that the hardware is already sampling to partners who are actively providing feedback – but that the GPUs are still not a final product yet. Intel is, however, in the process of ironing out the final bugs.

DrLupo also asked questions about Alchemist production levels and how supply and stock will pan out, and while Koduri said that Intel has flexible capacity – between its own fabs and TSMC – he obviously laid on caveats here that the chip shortage is likely to be around “for a while” yet (that much is clear across the entire industry, of course).

Interestingly, Koduri also observed that the goal for Intel, at least for the first few years, is not a financially-orientated one – in other words, making profit – but rather to establish an install base of GPUs in gaming machines, and carve into the AMD plus Nvidia duopoly.

Alchemical leak

It’s also worth diving into a recent leak here, which showed an Arc Alchemist card in an impressive light. It comes from the ever-present Tum_Apisak who tweeted a purported Ashes of the Singularity result for an unknown Alchemist GPU (but given the frame rates achieved we can assume this is likely the flagship, if it’s a genuine benchmark, of course).

See more

As Tom’s Hardware (which spotted this) points out, while this is a 1080p result, comparing to other scores sort of puts this particular Arc GPU in line with Nvidia’s RTX 3070 (or it could be a bit more powerful, even).

The trouble is there are a whole bunch of caveats here, not the least of which is that this is just a single benchmark – and we should be careful about reading too much into any one result – plus Ashes of the Singularity, while a common source of pre-release GPU leaks, is not a great test to rely on for a variety of reasons, most notably that it’s CPU-centric. And especially with this being a 1080p (medium details) result where the graphics card is less of a factor (and when the test rig is equipped with a beefy flagship Core i9-12900K).

In short, it’d be foolish to read much into this, but then again, for what it’s worth this is still a promising enough early hint of the performance we might get from Alchemist.


Analysis: More hope for affordable price tags from Intel?

Remote play via an Arc GPU would be a very cool feature to have, but if this happens, it won’t be for some time – Koduri mentioned maybe three to four years, but that’s obviously a vague estimation.

There’s another exciting prospect for the future that the Intel exec touched on, and that’s a multiple GPU system which is scalable and just works with whatever game you throw at it, giving you the full performance benefit of two cards in tandem. However, this is likely an even longer-term goal, but it’s good to know Intel is working towards realizing the dream of a proper multi-GPU setup which isn’t hamstrung by bandwidth between cards, and is consistent so it’s not flakier with certain games.

The other point that really caught our interest here is the talk of Intel not looking at the fiscal side of the equation with its early Arc graphics cards, but rather focusing on establishing an install base. That’s just common sense, true enough, when faced with the uphill battle of breaking into the GPU market which is a two-horse race currently, but it could also be taken as a hint that we might see Intel attack on the pricing front.

That would be the best news ever for the graphics card world, right now, what with prices getting beyond ridiculous, frankly – but in the nearer-term, whether such a goal is even feasible given stock and scalping issues (driving inflation), well, we shall just have to see. If this is Intel’s overall intention, though, it bodes well for a more competitive GPU sector when stock issues finally do melt away, which may not be until 2023 going by some predictions (and that includes Team Blue’s CEO).



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Thursday, 23 December 2021

Gigabyte laptops spotted with Nvidia RTX 3080 Ti GPUs ahead of CES 2022

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Nvidia’s rumored RTX 3080 Ti and 3070 Ti laptop GPUs, the mobile versions of the graphics cards already out there for desktops, have been spotted in two Intel Alder Lake-powered Gigabyte notebooks which are purportedly due to be revealed at CES 2022.

This was picked up by VideoCardz, which has dug up a good dollop of details on the specs of the Gigabyte Aorus 17 gaming laptop, and the creatives-targeted Aero 17 (plus Aero 16) for 2022. Sprinkle with the usual caveats, of course, but there are multiple pics of the laptops in question to back this up.

Indeed, VideoCardz reckons there will be up to five new laptops from Gigabyte in total, so possibly another couple on top of the models seen here. All will have Alder Lake 12th-gen CPUs and could run with RTX 30 Series Ti spins.

Gigabyte Aorus 17 leaked image

(Image credit: VideoCardz / Gigabyte)

Starting with the Gigabyte Aorus 17, this will in theory offer the RTX 3080 Ti across various different configurations, some of which will use DDR4 system RAM, and others DDR5 (expect to pay a premium for the latter memory, naturally).

The 3080 Ti will be employed in both these versions, though the DDR4 laptops will use (up to) the Intel Core i7-12700H processor, whereas the boat will be pushed out further with (up to) the Core i9-12900HK in the DDR5 laptop. Furthermore, the 3080 Ti could be configured with a 105W to 130W TGP, depending on the exact model of Aorus 17 with DDR5 (cranking up the wattage means better performance, but also requires better thermals and cooling).

Apparently the Aorus 17 further offers an up to 4K resolution Mini-LED IPS panel with a refresh rate of 120Hz, and that’ll be a certified DisplayHDR 1000 screen (in other words, it’ll be impressively bright and make HDR pop more).

With the incoming Gigabyte Aero models, these will supposedly be the Aero 16, which is of course a 16-inch laptop that replaces the previous 15-inch model, alongside a refresh of the existing Aero 17.

Gigabyte Aero 16 leaked image

(Image credit: VideoCardz / Gigabyte)

The new Aero 16 is thought to have an AMOLED screen from Samsung with up to 3,840 x 2,600 resolution (DisplayHDR 500), or alternatively a Mini-LED with a resolution of 2,560 x 1,600 (DisplayHDR 1000 like the Aorus above, but with a faster 165Hz refresh rate in this case). Gigabyte has apparently done away with the chunky bottom bezel, too, which will help with a slicker and more premium look.

For the core spec, again these Aero laptops will have Alder Lake processors – up to Core i9-12900HK – and the RTX 3080 Ti or the 3070 Ti. However, these GPUs won’t be Max-Q (less powerful, more energy-efficient and thermal-friendly) versions, but the full-fat solutions – albeit limited to 105W (compared to the Aorus which, as noted above, can be pushed to 130W in certain models).


Analysis: Mounting evidence is a good sign we’ll see these new Nvidia GPUs at CES

VideoCardz dives into quite some specifics here, and as mentioned we need to remain suitably skeptical, although there are certainly reasons to believe that this will happen beyond the cluster of authentic-looking images of these Gigabyte laptops provided by the tech site.

It’s strongly rumored that Intel will be revealing Alder Lake mobile chips at CES 2022, and indeed we recently saw almost the entire range of 12th-gen laptop silicon get detailed in an extensive leak.

It’s also already a strong prospect that Nvidia will reveal the RTX 3080 Ti and 3070 Ti, with rumors about these mobile GPUs floating around for quite some time. Remember, the 3070 Ti has already been spotted in an Acer laptop leak, and the 3080 Ti again very recently appeared in a spilled benchmark.

In short, the rumor mill is already pretty rife with chatter about Alder Lake and these Nvidia mobile GPUs, so it’d hardly be a surprise to see them at CES 2022. In fact, we’d be more surprised if we didn’t see them at this point, in all honesty – although we should never get too carried away with speculation, of course.

As for the actual rumored Gigabyte laptops themselves, VideoCardz makes some interesting additional observations about the Aero 15. Namely that the webcam has been shifted from the bottom to top bezel – to the relief of many, no doubt, who hate a ‘nosecam’ – but the privacy cover has been removed (so get your masking tape out). Also, the fingerprint reader which was built into the trackpad has been dropped (possibly because Gigabyte has gone the Windows Hello route instead for security).



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Wednesday, 15 December 2021

Want cheap DDR5 RAM? We have some bad news...

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If you were hoping to update your PC to using DDR5 modules, the latest generation of memory, then you might need to just bite the bullet and do so, because according to a recent report by Trendforce it won't be getting more affordable for a while.

The report notes that several areas of the memory market are expecting a downward trajectory for prices, but while PC DDR5 is predicted to fall by around 3-8% by Q1 2022, it's unlikely we will see that reduction reflected in the prices on the shelf, with Trendforce stating that "DDR4 and DDR5 PC DRAM will experience QoQ declines of 5-10% and 3-8%, respectively, for 1Q22, although the latter product will not noticeably impact the overall PC DRAM ASP, as its penetration rate is still relatively low."

Since the launch of consumer DDR5 modules earlier this year, many of us are keen to make the upgrade away from DDR4 (or even DDR3) to this new, faster generation of RAM, but it isn't as easy as simply buying some sticks to install into your device.

In fact, updating your current desktop to this new generation of RAM will require you to also upgrade some pretty major components, as only the latest generation of Intel Alder lake CPUs can be used with DDR5, with a new motherboard also required that can support both the new processors and memory modules. 

AMD is currently working on a new line of Ryzen processors that support DDR5 RAM, but until those products (and again, supported MOBOs) appear on the market, your path to upgrading lays solely with Team Blue. 

Prices will stay inflated for some time, but that’s nothing new and it is always the case that a new standard of RAM will remain costly for some time. MSI has previously commented on the wider memory market and states that it takes around two years before pricing starts to normalize. In short, it's going to take a couple of years for DDR5 to reach the same kind of price tags as the ones seen on DDR4 now.


Analysis: Don't rush to upgrade

It should go without saying that just because DDR5 has appeared on the market, that doesn't mean you should rush out and buy it just yet. The current DDR4 standard is fine and is available at speeds that can run any game or application you need, so while something new and shiny is obviously going to be exciting, you don't need to worry about jumping on the bandwagon just yet.

Via VideoCardz



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Tuesday, 14 December 2021

Seagate Introduces AMD EPYC-Based Exos Application Platform: Up To 1.344PB in 5U

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Seagate's Application Platform (AP) series of servers have targeted the market segments requiring tightly coupled storage and compute capabilities. The currently available SKUs - The Exos AP series with HDDs, and Nytro AP series with SSDs - are all based on Intel CPUs. That is changing today with the introduction of the Seagate Exos AP 5U84 based on the AMD EPYC Embedded 7292P processor.

The Exos AP 5U84 equipped with the 2nd Gen. AMD EPYC platform enables a high-density building block for private clouds and on-premises equipment, with 84 3.5" HDD bays capable of storing up to 1.344PB (using Exos X16 HDDs) in a 5U form-factor. Capacity can further be expanded with EXOS E SAS expansion units. The platform includes redundancy options and all the other enterprise reliability functions expected in a storage / compute server. Networking with other rack components is enabled by dual port 25GbE controllers. The server processor can be configured for core counts of 8, 12, or 16 depending on required application compute requirements. The EPYC Embedded 7292P processor also include PCIe 4 lanes capable of delivering 200GbE network connectivity, if required.

Overall, the core count advantage and per-core power efficiency delivered by EPYC processors make it an ideal addition to Seagate's AP series. Given AMD's steady capturing of the server market, it doesn't come as a surprise to see the AMD EPYC Embedded 7292P getting adopted in the storage market.



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Wednesday, 8 December 2021

AMD could follow Intel and switch to hybrid CPUs

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AMD could be planning on bringing in hybrid processors – chips that mix different types of cores in the same vein as Intel’s Alder Lake – or that’s the suggestion prompted by recently unearthed clues.

The possibility of AMD taking this direction is not a new development – we’ll come back to that – but the latest from the grapevine was spotted by Phoronix.com, and consists of changes wrapped up in updates to the SMCA (Scalable Machine Check Architecture) driver code for future AMD CPUs.

The patches applied add new SMCA bank types (and error descriptions), and also make layout changes, noting that: “Future AMD systems will have different bank type layouts between logical CPUs. So having a single system-wide cache of the layout won’t be correct.... Future AMD systems will lay out MCA bank types such that the type of bank number may be different across CPUs.”

While this is obviously pretty technical stuff, all you really need to know is that these changes could make some sense in terms of AMD paving the way for a hybrid architecture, with the fresh tinkering being put in place to help deal with the mix of cores (big and little, or performance and power-efficient) used with hybrid CPUs.

The broad idea of a hybrid CPU is to use the efficiency cores when idling (or for undemanding tasks), and keep power consumption to a minimum which is great for laptops and battery longevity – but the efficiency cores can also make a contribution to overall performance levels when needed, making them useful in desktops PCs as well.


Analysis: Patently obvious that AMD needs a reply to Intel’s hybrid success?

It’s far from certain that these SMCA configuration and layout changes are related to work on AMD’s transition to hybrid tech for Ryzen CPUs. We don’t know that, and this is all guesswork ultimately – AMD doesn’t give any reasoning behind the changes in its patch explanation.

However, it is a possibility, and as mentioned at the outset, we’ve now heard a few nuggets from the rumor mill suggesting that this is the course AMD has set. That includes patents from AMD for using two types of cores in a processor, and speculation about Zen 5 APUs which could go hybrid and might arrive in 2024.

Previously, AMD has thrown cold water on the idea of adopting hybrid tech, or rather, the speed at which Intel has gone for the mix of performance and efficiency cores. So, while it’s something of a waiting game to see when Team Red might make its move, it seems likely that such a shift won’t be too far off – particularly seeing as Alder Lake has been very well-received on the whole in its initial desktop incarnation.

Via PC Gamer



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Tuesday, 7 December 2021

Intel Alder Lake CPU problems with games now fixed – except for 3

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Intel’s Alder Lake processors stumbled out of the gate when it came to gaming, having trouble with the DRM countermeasures implemented in some titles – but now all these issues have been fixed, fortunately, aside from a few.

Three games still fail to run (or they run, then crash) with Alder Lake chips, thanks to its hybrid tech (mix of cores) causing DRM software to not recognize a 12th-gen product as a single processor, seeing the performance and efficiency cores as two separate systems instead.

Therefore the DRM thinks something fishy is going on, and doesn’t play ball, but solving this is just a matter of patching Denuvo to correctly identify Alder Lake silicon.

And as Tom’s Hardware spotted, going by Intel’s official list giving the status of incompatible DRM-toting games, fixes have now been implemented for all of the 90+ games which had trouble with Alder Lake, except for three: Assassin’s Creed: Valhalla, Fernbus Simulator, and Madden 22.


Analysis: Almost done now – and there’s that workaround, too

For the remaining trio of misfiring games, there is a workaround to side-step the DRM issue which Intel points out on its website. However, it does involve a trip to the BIOS (but not a difficult one – you simply have to enable ‘Legacy Game Compatibility Mode’, following the instructions here). This works with certain motherboards, and is essentially just turning off the efficiency cores to get around the problem that way (so you may have somewhat lesser performance levels, too).

Given the timeframe in which the best part of 100 games have been fixed, it’s probably a fair guess that the remaining three holdouts – which disappointingly still includes Assassin’s Creed: Valhalla – should be sorted in pretty swift order.

So hopefully we can put all this behind us very soon, and buyers of Alder Lake chips can simply enjoy their shiny new CPUs without having to worry about certain games requiring some BIOS fudging (and maybe performance loss) to actually work.



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Monday, 6 December 2021

Imagination Launches Catapult Family of RISC-V CPU Cores: Breaking Into Heterogeneous SoCs

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December is here, and with it comes several technical summits ahead of the holiday break. The most notable of which this week is the annual RISC-V summit, which is being put on by the Linux Foundation and sees the numerous (and ever increasing) parties involved in the open source ISA gather to talk about the latest products and advancements in the RISC-V ecosystem.  The summit always tends to feature some new product announcements, and this year is no different, as Imagination Technologies is at the show to provide details on their first RISC-V CPU cores, along with announcing their intentions to develop a full suite of CPU cores over the next few years.

The company, currently best known for their PowerVR GPU lineup, has been dipping their toes into the RISC-V ecosystem for the last couple of years with projects like RVfpga. More recently, this past summer the company revealed in an earnings call that they would be designing RISC-V CPU cores, with more details to come. Now at the RISC-V summit they’re providing those details and more, with the formal announcement of their Catapult family of RISC-V cores, as well as outlining a heterogeneous computing-centric roadmap for future development.

Starting from the top, the Catapult family is Imagination’s overarching name for a complete family of RISC-V CPU cores, the first of which are launching today. Imagination has (and is) designing multiple microarchitectures in order to cover a broad range of performance/power/area (PPA) needs, and the Catapult family is slated to encompass everything from microcontroller-grade processors to high-performance application processors. All told, Imagination’s plans for the fully fleshed out Catapult family look a lot like Arm’s Cortex family, with Imagination preparing CPU core designs for microcontrollers (Cortex-M), real-time CPUs (Cortex-R), high performance application processors (Cortex-A), and functionally safe CPUs (Cortex-AE). Arm remains the player to beat in this space, so having a similar product structure should help Imagination smooth the transition for any clients that opt to disembark for Catapult.

At present, Imagination has finished their first CPU core design, which is a simple, in-order core for 32-bit and 64-bit systems. The in-order Catapult core is being used for microcontrollers as well as real-time CPUs, and according to the company, Catapult microcontrollers are already shipping in silicon as part of automotive products. Meanwhile the real-time core is available to customers as well, though it’s not yet in any shipping silicon.

The current in-order core design supports up to 8 cores in a single cluster. The company didn’t quote any performance figures, though bear in mind this is a simple processor meant for microcontrollers and other very low power devices. Meanwhile, the core is available with ECC across both its L1 and TCM caches, as well as support for some of RISC-V’s brand-new extensions, such as the Vector computing extension, and potentially other extensions should customers ask for them.

Following the current in-order core, Imagination has essentially three more core designs on their immediate roadmap. For 2022 the company is planning to release an enhanced version of the in-order core as an application processor-grade design, complete with support for “rich” OSes like Linux. And in 2023 that will be followed by another, even higher performing in-order core for the real-time and application processor markets. Finally, the company is also developing a much more complex out-of-order RISC-V core design as well, which is expected in the 2023-2024 timeframe. The out-of-order Catapult would essentially be their first take on delivering a high-performance RISC-V application processor, and like we currently see with high-performance cores the Arm space, has the potential to become the most visible member of the Catapult family.

Farther out still are the company’s plans for “next generation heterogeneous compute” designs. These would be CPU designs that go beyond current heterogeneous offerings – namely, just placing CPU, GPU, and NPU blocks within a single SoC – by more deeply combining these technologies. At this point Imagination isn’t saying much more, but they are making it clear that they aren’t just going to stop with a fast CPU core.

Overall, these are all clean room designs for Imagination. While the company has long since sold off its Meta and MIPS CPU divisions, it still retains a lot of the engineering talent from those efforts – along with ownership of or access to a large number of patents from the area. So although they aren’t reusing anything directly from earlier designs, they are hoping to leverage their previous experience to build better IP sooner.

Of course, CPU cores are just one part of what it will take to succeed in the IP space; besides incumbent Arm, there are also multiple other players in the RISC-V space, such as SiFive, who are all vying for much of the same market. So Imagination needs to both differentiate themselves from the competition, and offer some kind of market edge to customers.

To that end, Imagination is going to be heavily promoting the possibilities for heterogenous computing designs with their IP. Compared to some of the other RISC-V CPU core vendors, Imagination already has well-established GPU and NPU IP, so customers looking to put together something more than just a straight CPU will be able to tap into Imagination’s larger library of IP. This does put the company more in direct competition with Arm (who already has all of these things as well), but then that very much seems to be Imagination’s goal here.

Otherwise, Imagination believes that their other big advantage in this space is the company’s history and location. As previously mentioned, Imagination holds access to a significant number of patents; so for clients who want to avoid extra patent licensing, they can take advantage of the fact that Imagination’s IP already comes indemnified against those patents. Meanwhile for chip designers who are based outside of the US and are weary of geopolitical issues affecting ongoing access to IP, Imagination is naturally positioned as an alternative there since they aren’t based in the US either – and thus access to their IP can’t be cut off by the US.

Wrapping things up, with the launch of their Catapult family of RISC-V CPU IP, imagination is laying out a fairly ambitious plan for the company for the next few years. By leveraging both their previous experience building CPUs as well as their current complementary IP like GPUs and NPUs, Imagination has their sights set on becoming a major player in the RISC-V IP space – and particularly when it comes to heterogeneous compute. Ultimately a lot will need to go right for the company before they can get there, but if they can succeed, then with their diverse collection of IP they would be in a rather unique position among RISC-V vendors.



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Intel Core i3-12100 could blow away AMD to be the new champion of budget CPUs

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Intel’s Core i3-12100 could be a storming budget CPU, at least if the latest leak around incoming Alder Lake silicon is on the money.

This comes from Hong Kong-based tech site XFastest, which supposedly got hold of an engineering sample of the Core i3 processor and put the chip through its paces. Of course, as ever with any pre-release leakage, take all this with a heavy dose of condiments.

According to the site, the Core i3-12100 will be a quad-core CPU with 8-threads, meaning it has four performance cores and no efficiency cores (in other words, it doesn’t use Alder Lake’s hybrid tech). It has a base TDP of 60W.

The tested chip was apparently capable of boost up to 4.3GHz, but that may not be the full extent of its powers given that this is an engineering sample – and as such, the benchmarks won’t represent the full performance level of the CPU, either.

Those benchmarks include PCMark, where the 12100 comfortably beats the Ryzen 3 3300X (and 3100X, another lesser quad-core model) it’s compared to. In fact, it’s over 10% speedier, and even more so in Cinebench, where Intel’s chip is approaching a third faster.

As PC Gamer reports, the Core i3-12100 also managed to beat out the budget Ryzen offerings in Cyberpunk 2077 and CS:GO, pointing to it being an all-round great option for those looking for a cheap processor.


Analysis: Intel readies to dominate the budget CPU arena

It’s not surprising to hear that the Core i3-12100 considerably outperforms the Ryzen 3 3300X, because this is a last-gen (3000 series) chip from AMD. Unfortunately, with Ryzen 5000, AMD has still yet to unleash an affordable equivalent for the 3300X, so this effectively leaves the door open for Intel to dominate the budget turf with this incoming Alder Lake Core i3 CPU.

What AMD has pushed out is the Ryzen 3 5300G, which is a storming budget performer, but the problem is you can’t buy it. That APU has only been made available to OEMs, meaning system manufacturers, so the only way you can get one is in a prebuilt system.

Whether that will change in the near future for Team Red, we can but hope, but of course AMD is currently fighting stock and component issues (as is everyone), and likely prioritizing Ryzen silicon with bigger profit margins (which only makes business sense – and Intel has done this in the past, too). Maybe we might hear something about a new more compelling budget offering from AMD that you can actually buy as a standalone CPU in the New Year, but we’ll just have to see.

Meanwhile, Intel theoretically has the Core i3-12100 coming in the first quarter of 2022, and it will arrive with cheaper Alder Lake motherboards to make for some seriously tempting budget PC builds by the sound of things.



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Sunday, 5 December 2021

Intel Raptor Lake CPU spotted in first benchmark leak

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Raptor Lake is Intel’s range of next-gen processors expected to come out in 2022, and we’ve just seen the first purported benchmark of these CPUs.

As highlighted by regular hardware leaker Komachi_Ensaka on Twitter, what could be the 13th-gen flagship processor has been sighted in a BAPCo Crossmark benchmark as Tom’s Hardware reports.

Note that the benchmark has since been removed – of course, it shouldn’t have been aired in the first place – but not before Tom’s screen grabbed and shared the news.

According to the details given here, the spec that the chip runs with is eight performance cores (new Raptor Cove cores), and 16 efficiency cores (Gracemont cores – the same as with Alder Lake). This is what was previously rumored, and gives the processor a theoretical 32-threads (as efficiency cores don’t have hyper-threading).

The benchmark itself shows the Raptor Lake CPU hitting an overall score of 1,591, which compares to a result of 2,376 for the Core i9-12900K, Intel’s new Alder Lake flagship.


Analysis: Don’t read much into an early engineering sample

It’s no surprise – assuming this benchmark is genuine, which is always a bit of a leap of faith with very early leaks – to see that Raptor Lake is a good deal slower than Alder Lake at this point in its development (the 12900K is almost 50% faster here, in fact). Obviously, when the Raptor Lake flagship is finished, that won’t be the case (if it wasn’t measurably faster, Intel would go back to the drawing board until it was).

What’s happening here is because this is a very early testing sample, it’s doubtless locked to slow clock speeds and doesn’t remotely reflect the performance of the final product which should emerge later in 2022 (maybe in Q3). Right now, Raptor Lake will still have plenty of optimization to be done on both the hardware and software fronts.

The theory is that Intel’s 13th-gen CPUs will be a simple refresh of Alder Lake, but it’s bound to make some decent architectural gains as Intel refines its new hybrid tech, and obviously the addition of more efficiency cores – a lot more if these early rumors are right – should make a considerable difference to performance too.

There is also speculation about Raptor Lake taking some big strides forward in terms of power-efficiency as well, so we can still remain quietly optimistic about what the next-gen might bring.



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Thursday, 2 December 2021

United States FTC Files Lawsuit to Block NVIDIA-Arm Acquisition

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In the biggest roadblock yet to NVIDIA’s proposed acquisition of Arm, the United States Federal Trade Commission (FTC) has announced this afternoon that the regulatory body will be suing to block the merger. Citing concerns over the deal “stifling the innovation pipeline for next-generation technologies”, the FTC is moving to scuttle the $40 billion deal in order to protect the interests of the wider marketplace.

The deal with current Arm owner SoftBank was first announced in September of 2020, where at the time SoftBank had been shopping Arm around in an effort to either sell or spin-off the technology IP company. And while NVIDIA entered into the deal with bullish optimism about being able to close it without too much trouble, the company has since encountered greater political headwinds than expected due to the broad industry and regulatory discomfort with a single chip maker owning an IP supplier used by hundreds of other chip makers. The FTC, in turn, is the latest and most powerful regulatory body to move to investigate the deal – voting 4-0 to file the suit – following the European Union opening a probe into the merger earlier this fall. The

While the full FTC complaint has yet to be released, per a press release put out by the agency earlier today, the crux of the FTC’s concerns revolve around the advantage over other chip makers that NVIDIA would gain from owning Arm, and the potential for misconduct and other unfair acts against competitors that also rely on Arm’s IP. In particular, the FTC states that “Tomorrow’s technologies depend on preserving today’s competitive, cutting-edge chip markets. This proposed deal would distort Arm’s incentives in chip markets and allow the combined firm to unfairly undermine Nvidia’s rivals.”

To that end, the FTC’s complaint is primarily focusing on product categories where NVIDIA already sells their own Arm-based hardware. This includes Advanced Driver Assistance Systems (ADAS) for cars, Data Processing Units (DPUs) and SmartNICs, and, of course, Arm-based CPUs for servers. These are all areas where NVIDIA is an active competitor, and as the FTC believes, would provide incentive for NVIDIA to engage in unfair competition.

More interesting, perhaps, is the FTC’s final concern about the Arm acquisition: that the deal will give NVIDIA access to “competitively sensitive information of Arm’s licensees”, which NVIDIA could then abuse for their own gain. Since many of Arm’s customers/licensees are directly reliant on Arm’s core designs (as opposed to just licensing the architecture), they are also reliant on Arm to add features and make other alterations that they need for future generations of products. As a result, Arm’s customers regularly share what would be considered sensitive information with the company, which the FTC in turn believes could be abused by NVIDIA to harm rivals, such as by withholding the development of features that these rival-customers need.

NVIDIA, in turn, has announced that they will be fighting the FTC lawsuit, stating that “As we move into this next step in the FTC process, we will continue to work to demonstrate that this transaction will benefit the industry and promote competition.”

Ultimately, even if NVIDIA is successful in defending the acquisition and defeating the FTC’s lawsuit, today’s announcement means that the Arm acquisition has now been set back by at least several months. NVIDIA’s administrative trial is only scheduled to begin on August 9, 2022, almost half a year after NVIDIA initially expected the deal to close. And at this point, it’s unclear how long a trial would last – and how long it would take to render a verdict.



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Wednesday, 1 December 2021

Best Laptops: Holiday 2021

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With 2021 coming to a close, it is time again to look back at the laptop market. Despite bumps from the COVID pandemic, the laptop ecosystem continues to flourish, delivering a bevvy of new products based on new platforms.

For 2021, AMD launched their very successful Ryzen 5000 series products (codenamed Cezanne) featuring the latest Zen 3 CPU cores paired with AMD Vega graphics. Intel, still basking in the glow of the Tiger Lake launch in late 2020 continues to feature the 11th generation Core platform that is now over a year old. Based on the Willow Cove cores and featuring a much-improved Intel Xe graphics solution, Intel's solution still provides excellent performance and efficiency for the PC laptop space.

The big news of 2021 was Apple ditching x86 processors and beginning the process of moving their products to their in-house designs. While Macs won't be covered in this guide – either you want an Arm-based Mac or you want an x86-based PC – it was still an important milestone in the laptop space and not one to be ignored.



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Monday, 29 November 2021

Best PC Power Supplies: Holiday 2021

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Now that you've picked out your CPU, it's time to start picking out the rest of your system components. And perhaps the most humble but overlooked of these components is the power supply unit (PSU). Available in a wide range of sizes and power capacities, there are a number of great PSUs out there, but choosing between them can be a challenge. So today we're bringing you our annual PC power supply guide, to help you sort figure out what the best options are, be it a low-wattage unit for a small form factor PC, or a hulking kilowatt unit for the most powerful PC.



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Monday, 22 November 2021

Best CPUs for Gaming: Holiday 2021

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The launch of Intel’s 12th Gen Alder Lake processors has shaken up the market in the eternal battle against AMD, with seemingly a good number of processors to go around. The main limitations are still graphics cards for gaming, but also those looking for DDR5 are having to scout around as the dreaded ‘supply chain’ has limited how many modules have come to market. Nonetheless, platform costs aside, stock of both AMD’s Ryzen 5000 and Intel’s 12th Gen Alder Lake processors seems to be healthy, and both are aggressively priced.



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Friday, 19 November 2021

Intel Meteor Lake 14th-gen CPUs already spotted in early photo

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Intel’s Meteor Lake processors, which will be its 14th-gen chips – the ones following next-gen models (Raptor Lake) and expected in 2023 – have already been spotted and photographed; or at least test versions of the chips have.

This initial sighting of Meteor Lake – which will be the first of Intel’s CPUs to blaze onto 7nm (finally) – was recorded by CNET’s Stephen Shankland, who snapped a close-up of a wafer of Meteor Lake test chips (see below), quite possibly of the M-Series (low-power models).

Intel Meteor Lake test chips in Fab 42

(Image credit: CNET / Intel)

Shankland reminds us that manufacturing will begin in 2022, and shipping is scheduled for 2023 as Intel previously told us (remember that Meteor Lake was ‘taped in’ back in May 2021, meaning all separate design elements of the CPUs were complete back then).

During his tour of Intel’s Fab 42 in Arizona, Shankland also got to see Sapphire Rapids next-gen Xeon Scalable processors for servers. Earlier this week, we also heard about high-end desktop (HEDT) Sapphire Rapids-X chips and how they are expected to launch in Q3 of 2022.


Analysis: Intel 4 looking good for 2023

Spotting test chips is another exciting hint that Intel is on target with its proposed 2023 launch for Meteor Lake.

These 14th-gen processors will be built on the Intel 4 process (7nm EUV), which is expected to be a considerable 20% performance uplift over Intel 7 (Enhanced SuperFin) as used in the current-gen Alder Lake chips. A refresh of the latter is expected to bridge the move between Intel 7 and Intel 4, which will be Raptor Lake 13th-gen as mentioned at the outset.

Raptor Lake is expected to arrive in Q3 of 2022 (alongside Sapphire Rapids-X), and could be a serious step up in power-efficiency itself.

Via VideoCardz



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Thursday, 18 November 2021

Qualcomm x Nuvia: Silicon Sampling in Late 2022, Products in 2023

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One of the more curious acquisitions in the last couple of years has been that of Nuvia by Qualcomm. Nuvia was a Silicon Valley start-up founded by the key silicon and design engineers and architects behind both Apple’s and Google’s silicon for the past few years. Qualcomm CEO Cristiano Amon made it crystal clear when Nuvia was acquired that they were going after the high-performance ultraportable laptop market, with both Intel and Apple in the crosshairs.

Nuvia came out of stealth in November 2019, with the three main founders having spent almost a year building the company. Gerard Williams III, John Bruno, and Manu Gulati have collectively driven the silicon design of 20+ chips, have combined over 100 patent, and have been in leadership roles across Google, Apple, Arm, Broadcom, and AMD. Nuvia raised a lot of capital, $300M+ over two rounds of funding and angel investors, and the company hired a lot of impressive staff.

The goal of Nuvia was to build an Arm-based general purpose server chip that would rock the industry. Imagine something similar to what Graviton 2 and Ampere Altra are today, but with a custom microarchitecture on par (or better) with Apple’s current designs. When Nuvia was still on its own in start-up mode, some were heralding the team and the prospect, calling for the downfall of x86 with Nuvia’s approach. However, Qualcomm swept in and acquired the company in March 2021, and repurposed Nuvia’s efforts towards a laptop processor.

It’s been no secret that Qualcomm has been after the laptop and notebook market for some time. Multiple generations of ‘Windows on Snapdragon’ have come to market through Qualcomm’s partners, initially featuring smartphone-class silicon before becoming something more bespoke with the 8cx, 8cx Gen 2, and 7c/7 options in the past couple of years. It has taken several years for Qualcomm to get the silicon and the Windows ecosystem somewhere that makes sense for commercial and consumer use, and with the recent news that Windows 11 on these devices now enabling full x86-64 emulation support, the functional difference between a Qualcomm laptop and an x86 laptop is supposed to be near zero. Qualcomm would argue their proposition is better, allowing for 2 days of use on a single charge, holding charge for weeks, and mobile wireless connectivity with 4G/5G. I’ve tested one of the previous generation S855 Lenovo Yoga devices, and the battery life is insane – but I needed better were functional support (turns out I have an abnormal edge-case work flow…) and more performance. While Qualcomm has been working on the former since my last test, and Nuvia is set to bring the latter.


Image from @anshelsag on Twitter, Used with permission

At Qualcomm’s Investor Day this week, the Qualcomm/Nuvia relationship was mentioned in an update. I had hoped that by the end of this year (and Qualcomm’s Tech Summit in only a couple of weeks) that we might be seeing something regarding details or performance, however Qualcomm is stating that its original schedule is still on track. As announced at the acquisition, the goal is to deliver test silicon into the hands of partners in the second half of 2022.

The goal here is to have laptop silicon that is competitive with Apple's M-series, but running Windows. This means blowing past Intel and AMD offerings, and coupled with the benefits of better battery life, sustained performance, and mobile connectivity. From the disclosures so far, it’s perhaps no surprise that the Nuvia CPUs will be paired with an Adreno GPU and a Hexagon DSP, although it will be interesting to see if the Nuvia CPU is a single big core paired with regular Arm efficient cores, or everything in the CPU side will be new from the Nuvia team.

I have no doubt that at Qualcomm’s Tech Summit in December 2022 we’ll get a deeper insight into the microarchitecture of the new core. Either that or Qualcomm might surprise us with a Hot Chips presentation in August. With regards to going beyond laptop chips, while Qualcomm is happy to state that Nuvia's designs will be 'extended to [other areas] opportunistically', it's clear that they're locking the crosshairs on the laptop market before even considering what else might be in the field of view.



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AMD’s Instinct MI250X: Ready For Deployment at Supercomputing

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One of the big announcements at AMD’s Data Center event a couple of weeks ago was the announcement of its CDNA2 based compute accelerator, the Instinct MI250X. The MI250X uses two MI200 Graphics Compute Dies on TSMC’s N6 manufacturing node, along with four HBM2E modules per die, using a new ‘2.5D’ packaging design that uses a bridge between the die and the substrate for high performance and low power connectivity. This is the GPU going into Frontier, one of the US Exascale systems due for power on very shortly. At the Supercomputing conference this week, HPE, under the HPE Cray brand, had one of those blades on display, along with a full frontal die shot of the MI250X. Many thanks to Patrick Kennedy from ServeTheHome for sharing these images and giving us permission to republish them.

The MI250X chip is a shimmed package in an OAM form factor. OAM stands for OCP Accelerator Module, which was developed by the Open Compute Project (OCP) – an industry standards body for servers and performance computing. And this is the accelerator form factor standard the partners use, especially when you pack a lot of these into a system. Eight of them, to be exact.

This is a 1U half-blade, featuring two nodes. Each node is an AMD EPYC ‘Trento’ CPU (that’s a custom IO version of Milan using the Infinity Fabric) paired with four MI250X accelerators. Everything is liquid cooled. AMD said that the MI250X can go up to 560 W per accelerator, so eight of those plus two CPUs could mean this unit requires 5 kilowatts of power and cooling. If this is only a half-blade, then we’re talking some serious compute and power density here.

Each node seems relatively self-contained – the CPU on the right here isn’t upside down given the socket rear pin outs aren’t visible, but that’s liquid cooled as well. What looks like four copper heatpipes, two on each side of the CPU, is actually a full 8-channel memory configuration. These servers don’t have power supplies, but they get the power from a unified back-plane in the rack.

The back connectors look something like this. Each rack of Frontier nodes will be using HPE’s Slingshot interconnect fabric to scale out across the whole supercomputer.

Systems like this are undoubtedly over-engineered for the sake of sustained reliability – that’s why we have as much cooling as you can get, enough power phases for a 560 W accelerator, and even with this image, you can see those base motherboards the OAM connects into are easily 16 layers, if not 20 or 24. For reference, a budget consumer motherboard today might only have four layers, while enthusiast motherboards have 8 or 10, sometimes 12 for HEDT.

In the global press briefing, Keynote Chair and Professor world renowned HPC Professor Jack Dongarra, suggested that Frontier is very close to being powered up to be one of the first exascale systems in the US. He didn’t outright say it would beat the Aurora supercomputer (Sapphire Rapids + Ponte Vecchio) to the title of first, as he doesn’t have the same insight into that system, but he sounded hopeful that Frontier would submit a 1+ ExaFLOP score to the TOP500 list in June 2021.

Many thanks to Patrick Kennedy and ServeTheHome for permission to share his images.



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