Nintendo has said it will finally announce its Switch successor console "within this fiscal year," so at some point before March 31, 2025. From a report: In a statement published to X / Twitter, Shuntaro Furukawa, President of Nintendo, confirmed the new console as Nintendo published its financial report for the fiscal year ending March 31, 2024. Furukawa also confirmed a Nintendo Direct for this June, but said there will be no mention of the Switch successor during that presentation. Instead, it will focus on Switch games for the latter half of 2024.

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The GNOME Foundation today published their 2023 annual report that outlines their accomplishments as well as a look at the finances...

Asus on Tuesday said that it would announce its first 'AI PC' based on Qualcomm's Snapdragon X Elite system-on-chips later this month. The new laptop is set to be introduced at the Next Level. AI Incredible virtual launch event on May 20.

The launch of Asustek's new Vivobook S 15 will be hosted by Asus and will be joined by representatives of Qualcomm and Microsoft, who will reveal how they collaborated with PC maker to develop the first notebook based on Qualcomm's Snapdragon X Elite processors. These new SoCs promise to have a significant impact on the PC market in the coming quarters as they are based on the Arm instruction set architecture and are expected to bring together high performance, on-device AI acceleration, and long battery life. 

Qualcomm itself calls systems powered by its Snapdragon processors as AI PCs, which is exactly how Asus calls it Vivobook S15 as well. Meanwhile, the only things we know about the machine for now is that it will be based on Qualcomm's Snapdragon X Elite or Snapdragon X Plus processors with 12 or 10 Oryon CPU cores (originally developed by Nuvia), a high-end Adreno GPU, and a 45 TOPS NPU; will come in a metallic chassis, and will feature a 15-inch display.

"The launch event, which will feature a collaboration between Microsoft, Qualcomm, and Asus, celebrates the first of the new-era Asus AI PCs, which are set to redefine the very fabric of computing," a statement by Asus reads. "The new laptop will usher in a new era of Asus AI PCs, breaking traditional boundaries and harnessing advanced AI capabilities. With comprehensive support for the latest AI functionality from Asus and Microsoft, it offers personalized AI experiences tailored to individual requirements."

Asus is also scheduled showcase its Vivobook laptops based on Qualcomm's processors at Computex in June. Actual systems will be available later this year.

An anonymous reader shares a report: The Federal Aviation Administration is investigating whether Boeing failed to complete required inspections on 787 Dreamliner planes and whether Boeing employees falsified aircraft records, the agency said this week. The investigation was launched after an employee reported the problem to Boeing management, and Boeing informed the FAA. "The FAA has opened an investigation into Boeing after the company voluntarily informed us in April that it may not have completed required inspections to confirm adequate bonding and grounding where the wings join the fuselage on certain 787 Dreamliner airplanes," the FAA said in a statement provided to Ars today. The FAA said it "is investigating whether Boeing completed the inspections and whether company employees may have falsified aircraft records. At the same time, Boeing is reinspecting all 787 airplanes still within the production system and must also create a plan to address the in-service fleet." The agency added that it "will take any necessary action -- as always -- to ensure the safety of the flying public." Boeing VP Scott Stocker, who leads the 787 Dreamliner program, described "misconduct" in an April 29 email to employees in South Carolina. Boeing provided a copy of the email to Ars. "After receiving the report, we quickly reviewed the matter and learned that several people had been violating Company policies by not performing a required test, but recording the work as having been completed," Stocker wrote. "As you all know, we have zero tolerance for not following processes designed to ensure quality and safety. We promptly informed our regulator about what we learned and are taking swift and serious corrective action with multiple teammates."

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Along with introducing a new iPad Air and iPad Pro during its Let Loose event, Apple quietly killed its ninth-gen iPad -- also known as the last iPad with a headphone jack. From a report: The 10th-gen iPad is now the sole entry-level iPad in Apple's official lineup and, as such, has received a $100 price cut. Released in late 2022, the 10th-generation iPad arrived starting at $449, or about $120 more than base entry-level iPads from previous years. Apple justified the price increase with new iPad Air-like features, like a 10.9-inch screen and USB-C support.

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In what appears to be a mistake or a jump of the gun by ASUS, they have seemingly published a list of specifications for one of its key notebooks that all but allude to the next generation of AMD's mobile processors. While we saw AMD toy with a new nomenclature for their Phoenix silicon (Ryzen 7040 series), it seems as though AMD is once again changing things around where their naming scheme for processors is concerned.

The ASUS listing, which has now since been deleted, but as of writing is still available through Google's cache, highlights a model that is already in existence, the VivoBook S 16 OLED (M5606), but is listed with an unknown AMD Ryzen AI 9 HX 170 processor. Which, based on its specificiations, is certainly not part of the current Hawk Point (Phoenix/Phoenix 2) platform.

The cache on Google shows the ASUS Vivobook S 16 OLED with a Ryzen AI 9 HX 170 Processor

While it does happen in this industry occasionally, what looks like an accidental leak by ASUS on one of their product pages has unearthed an unknown processor from AMD. This first came to our attention via a post on Twitter by user @harukaze5719. While we don't speculate on rumors, we confirmed this ourselves by digging through Google's cache. Sure enough, as the image above from Google highlights, it lists a newly unannounced model of Ryzen mobile processor. Under the listing via the product compare section for the ASUS Vivobook S 16 OLED (M5606) notebook, it is listed with the AMD Ryzen AI 9 HX 170, which appears to be one of AMD's upcoming Zen 5-based mobile chips codenamed Strix Point.

So with the seemingly new nomenclature that AMD has gone with, it has a clear focus on AI, or rather Ryzen AI, by including it in the name. The Ryzen AI 9 HX 170 looks set to be a 12C/24T Zen 5 mobile variant, with their Ryzen AI NPU or similar integrated within the chip. Given that Microsoft has defined that only processors with an NPU with 45 TOPS of performance or over constitute being considered an 'AI PC', it's likely the Xilinx (now AMD Xilinx) based NPU will meet these requirements as the listing states the chip has up to 77 TOPS of AI performance available. The HX series is strikingly similar to AMD's (and Intel's) previous HX naming series for their desktop replacement SKUs for laptops, so assuming any of the details of ASUS's error are correct, then this is presumably a very high-end, high-TDP part.

AMD Laptop Roadmap from Zen 2 in 2019 to Zen 5 on track for release in 2024

We've known for some time that AMD plans to release AMD's Zen 5-based Strix Point line-up sometime in 2024. Given the timing of Computex 2024, which is just over four weeks away, we still don't quite have the full picture of Zen 5's performance and its architectural shift over Zen 4. AMD CEO Dr. Lisa Su also confirmed that Zen 5 will come with enhanced RDNA graphics within the Strix Point SoC by stating "Strix combines our next-gen Zen 5 core with enhanced RDNA graphics and an updated Ryzen AI engine to significantly increase the performance, energy efficiency, and AI capabilities of PCs,"

While it's entirely possible as we lead up to Computex 2024 that AMD is prepared to announce more details about Zen 5, nothing is confirmed. We do know that the CEO of AMD, Dr. Lisa Su is scheduled to deliver the opening keynote of the show, Dr. Lisa Su unveiled their Zen 4 microarchitecture at Computex 2022 during AMD's keynote and even unveiled their 3D V-Cache stacking, which we know today as the Ryzen X3D CPUs back at Computex 2021.

With that in mind, AMD and Dr. Lisa Su love to announce new products and architectures at Computex, so we just have to wait until the beginning of next month. How AMD denotes the nomenclature for the upcoming Zen 5 mobile and desktop processors remains to be seen, but hopefully, all will be revealed soon. Regarding the ASUS Vivobook S 16 OLED (M5606), we currently don't know any of the other specifications at this time. Still, we expect them to be available once AMD has updated us with information on Zen 5 and Strix Point.

Setting things up for what is certainly to be an exciting next few months in the world of CPUs and SoCs, Apple this morning has announced their next-generation M-series chip, the M4. Introduced just over six months after the M3 and the associated 2023 Apple MacBook family, the M4 is going to start its life on a very different track, launching alongside Apple’s newest iPad Pro tablets. With their newest chip, Apple is promising class-leading performance and power efficiency once again, with a particular focus on machine learning/AI performance.

The launch of the M4 comes as Apple’s compute product lines have become a bit bifurcated. On the Mac side of matters, all of the current-generation MacBooks are based on the M3 family of chips. On the other hand, the M3 never came to the iPad family – and seemingly never will. Instead, the most recent iPad Pro, launched in 2022, was an M2-based device, and the newly-launched iPad Air for the mid-range market is also using the M2. As a result, the M3 and M4 exist in their own little worlds, at least for the moment.

Given the rapid turn-around between the M3 and M4, we’ve not come out of Apple’s latest announcement expecting a ton of changes from one generation to the next. And indeed, details on the new M4 chip are somewhat limited out of the gate, especially as Apple publishes fewer details on the hardware in its iPads in general. Coupled with that is a focus on comparing like-for-like hardware – in this case, M4 iPads to M2 iPads – so information is thinner than I’d like to have. None the less, here’s the AnandTech rundown on what’s new with Apple’s latest M-series SoC.

Apple M-Series (Vanilla) SoCs
SoC	M4	M3	M2
CPU Performance	4-core	4-core	4-core (Avalanche) 16MB Shared L2
CPU Efficiency	6-core	4-core	4-core (Blizzard) 4MB Shared L2
GPU	10-Core Same Architecture as M3	10-Core New Architecture - Mesh Shaders & Ray Tracing	10-Core 3.6 TFLOPS
Display Controller	2 Displays?	2 Displays	2 Displays
Neural Engine	16-Core 38 TOPS (INT8?)	16-Core 18 TOPS	16-Core 15.8 TOPS
Memory Controller	LPDDR5X-7700 8x 16-bit CH 120GB/sec Total Bandwidth (Unified)	LPDDR5-6400 8x 16-bit CH 100GB/sec Total Bandwidth (Unified)	LPDDR5-6400 8x 16-bit CH 100GB/sec Total Bandwidth (Unified)
Max Memory Capacity	24GB?	24GB	24GB
Encode/ Decode	8K H.264, H.265, ProRes, ProRes RAW, AV1 (Decode)	8K H.264, H.265, ProRes, ProRes RAW, AV1 (Decode)	8K H.264, H.265, ProRes, ProRes RAW
USB	USB4/Thunderbolt 3 ? Ports	USB4/Thunderbolt 3 2x Ports	USB4/Thunderbolt 3 2x Ports
Transistors	28 Billion	25 Billion	20 Billion
Mfc. Process	TSMC N3E	TSMC N3B	TSMC N5P

At a high level, the M4 features some kind of new CPU complex (more on that in a second), along with a GPU that seems to be largely lifted from the M3 – which itself was a new GPU architecture. Of particular focus by Apple is the neural engine (NPU), which is still a 16-core design, but now offers 38 TOPS of performance. And memory bandwidth has been increased by 20% as well, helping to keep the more powerful chip fed.

One of the few things we can infer with a high degree of certainty is the manufacturing process being used here. Apple’s description of a “second generation 3nm process” lines up perfectly in timing with TSMC’s second-generation 3nm process, N3E. The enhanced version of their 3nm process node is a bit of a sidegrade to the N3B process used by the M3 series of chips; N3E is not quite as dense as N3B, but according to TSMC it offers slightly better performance and power characteristics. The difference is close enough that architecture plays a much bigger role, but in the race for energy efficiency, Apple will take any edge they can get.

Apple’s position as TSMC’s launch-partner for new process nodes has been well-established over the years, and Apple appears to be the first company out the door launching chips on the N3E process. They will not be the last, however, as virtually all of TSMC’s high-performance customers are expected to adopt N3E over the next year. So Apple’s immediate chip manufacturing advantage, as usual, will only be temporary.

Apple’s early-leader status likely also plays into why we’re seeing the M4 now for iPads – a relatively low volume device at Apple – and not the MacBook lineup. At some point, TSMC’s N3E production capacity will catch up, and then-some. I won’t hazard a guess as to what Apple has planned for that lineup at that point, as I can’t really see Apple discontinuing M3 chips so quickly, but it also leaves them in an awkward spot having to sell M3 Macs when the M4 exists.

No die sizes have been quoted for the new chip (or die shots posted), but at 28 billion transistors in total, it’s only a marginally larger transistor count than the M3, indicating that Apple hasn’t thrown an excessive amount of new hardware into the chip. (ed: does anyone remember when 3B transistors was a big deal?)

M4 CPU Architecture: Improved ML Acceleration

Starting on the CPU side of things, we’re facing something of an enigma with Apple’s M4 CPU core design. The combination of Apple’s tight-lipped nature and lack of performance comparisons to the M3 means that we haven’t been provided much information on how the CPU designs compare. So if M4 represents a watershed moment for Apple’s CPU designs – a new Monsoon/A11 – or a minor update akin to the Everest CPU cores in A17, remains to be seen. Certainly we hope for the latter, but absent further details, we’ll work with what we do know.

Apple’s brief keynote presentation on the SoC noted that both the performance and efficiency cores implement improved branch predication, and in the case of performance cores, a wider decode and execution engine. However these are the same broad claims that Apple made for the M3, so this is not on its own indicative of a new CPU architecture.

What is unique to Apple’s M4 CPU claims however are “next-generation ML accelerators” for both CPU core types. This goes hand-in-hand with Apple’s broader focus on ML/AI performance in the M4, though the company isn’t detailing on just what these accelerators entail. With the NPU to do all of the heavy lifting, the purpose of AI enhancements on the CPU cores is less about total throughput/performance and more about processing light inference workloads mixed inside more general-purpose workloads without having to spend the time and resources firing up the dedicated NPU.

A grounded guess here would be that Apple has updated their poorly-documented AMX matrix units, which have been a part of the M series of SoCs since the beginning. However recent AMX versions already support common ML number formats like FP16, BF16, and INT8, so if Apple has made changes here, it’s not something simple and straightforward such as adding (more) common formats. At the same time if it is AMX, it’s a bit surprising to see Apple mention it at all, since they are otherwise so secretive about the units.

The other reasonable alternative would be that Apple has made some changes to their SIMD units within their CPUs to add common ML number formats, as these units are more directly accessible by developers. But at the same time, Apple has been pushing developers to use higher-level frameworks to begin with (which is how AMX is accessed), so this could really go either way.

In any case, whatever the CPU cores are that underpin M4, there is one thing that is certain: there are more of them. The full M4 configuration is 4 performance cores paired with 6 efficiency cores, 2 more efficiency cores than found on the M3. Cut-down iPad models get a 3P+6E configuration, while the higher-tier configurations get the full 4P+6E experience – so the performance impact there will likely be tangible.

Everything else held equal, the addition of two more efficiency cores shouldn’t massively improve on CPU performance over the M3’s 4P+4E configuration. But then Apple’s efficiency cores should not be underestimated, as even Apple’s efficiency cores are relatively powerful thanks to their use of out-of-order execution. Especially when fixed workloads can be held on the efficiency cores and not promoted to the performance cores, there’s a lot of room for energy efficiency gains.

Otherwise, Apple hasn’t published any detail performance graphs for the new SoC/CPU cores, so there’s little in the way of hard numbers to talk about. But the company is claiming that the M4 delivers 50% faster CPU performance than the M2. This presumably is for a multi-threaded workload that can leverage the M4’s CPU core count advantage. Alternatively, in their keynote Apple is also claiming that they can deliver M2 performance at half the power, which as a combination of process node improvements, architectural improvements, and CPU core count increases, seems like a reasonable claim.

As always, however, we’ll have to see how independent benechmarks pan out.

M4 GPU Architecture: Ray Tracing & Dynamic Caching Return

Compared to the CPU situation on the M4, the GPU situation is much more straightforward. Having just recently introduced a new GPU architecture in the M3 – a core type that Apple doesn’t iterate on as often as the CPU – Apple has all but confirmed that the GPU in the M4 is the same architecture that was found in the M3.

With 10 GPU cores, at a high level the configuration is otherwise identical to what was found on the M3. Whether that means the various blocks and caches are truly identical to the M3 remains to be seen, but Apple isn’t making any claims about the M4’s GPU performance that could be in any way interpreted as it being superior to the M3’s GPU. Indeed, the smaller form factor of the iPad and more limited cooling capabilities means that the GPU is going to be thermally constrained under any sustained workload to begin with, especially compared to what the M3 can do in an actively-cooled device like the 14-Inch MacBook Pro.

At any rate, this means the M4 comes with all of the major new architectural features introduced with the M3’s GPU: ray tracing, mesh shading, and dynamic caching. Ray tracing needs little introduction at this point, while mesh shading is a significant, next-generation means of geometry processing. Meanwhile, dynamic caching is Apple’s term for their refined memory allocation technique on M-series chips, which avoids over-allocating memory to the GPU from Apple’s otherwise unified memory pool.

GPU rendering aside, the M4 also gets the M3’s updated media engine block, which coming from the M2 is a relatively big deal for iPad uses. Most notably, the M3/M4’s media engine block added support for AV1 video decoding, the next-generation open video codec. And while Apple is more than happy to pay royalties on HEVC/H.265 to ensure it’s available within their ecosystem, the royalty-free AV1 codec is expected to take on a lot of significance and use in the coming years, leaving the iPad Pro in a better position to use the newest codec (or, at least, not have to inefficiently decode AV1 in software).

What is new to the M4 on the display side of matters, however, is a new display engine. The block responsible for compositing images and driving the attached displays on a device, Apple never gives this block a particularly large amount of attention, but when they do make updates to it, it normally comes with some immediate feature improvements.

The key change here seems to be enabling Apple’s new sandwiched “tandem” OLED panel configuration, which is premiering in the iPad Pro. The iPad’s Ultra Retina XDR display places two OLED panels directly on top of each other in order allow for a display that can cumulatively hit Apple’s brightness target of 1600 nits – something that a single one of their OLED panels is apparently incapable of doing. This in turn requires a display controller that knows how to manipulate the panels, not just driving a mirrored set of displays, but accounting for the performance losses that would stem from having one panel below another.

And while not immediately relevant to the iPad Pro, it will be interesting to see if Apple used this opportunity to increase the total number of displays the M4 can drive, as vanilla M-series SoCs have normally been limited to 2 displays, much to the consternation of MacBook users. The fact that the M4 can drive the tandem OLED panels and an external 6K display on top of that is promising, but we’ll see how this translates to the Mac ecosystem if and when the M4 lands in a Mac.

M4 NPU Architecture: Something New, Something Faster

Arguably Apple’s biggest focus with the M4 SoC is the company’s NPU, otherwise known as their neural engine. The company has been shipping a 16-core design since the M1 (and smaller designs on the A-series chips for years before that), each generation delivering a modest increase in performance. But with the M4 generation, Apple says they are delivering a much bigger jump in performance.

Still a 16-core design, the M4 NPU is rated for 38 TOPS, just over twice that of the 18 TOPS neural engine in the M3. And coincidentally, only a few TOPS more than the neural engine in the A17. So as a baseline claim, Apple is pitching the M4 NPU as being significantly more powerful than what’s come in the M3, never mind the M2 that powers previous iPads – or going even farther back, 60x faster than the A11’s NPU.

Unfortunately, the devil is (once again) in the details here as Apple isn’t listing the all-important precision information – whether this figure is based on INT16, INT8, or even INT4 precision. As the precision de jure for ML inference right now, INT8 is the most likely option, especially as this is what Apple quoted for the A17 last year. But freely mixing precisions, or even just not disclosing them, is headache-inducing to say the least. And it makes like-for-like specification comparisons difficult.

In any case, even if most of this performance improvement comes from INT8 support versus INT16/FP16 support, the M4 NPU is slated to deliver significant performance improvements to AI performance, similar to what’s already happened with the A17. And as Apple was one of the first chip vendors to ship a consumer SoC with what we now recognize as an NPU, the company isn’t afraid to beat its chest a bit on the matter, especially comparing it to what is going on in the PC realm. Especially as Apple’s offering is a complete hardware/software ecosystem, the company has the advantage of being able mold their software around using their own NPU, rather than waiting for the killer app to be invented for it.

M4 Memory: Adopting Faster LPDDR5X

Last, but certainly not least, the M4 SoC is also getting a notable improvement in its memory capabilities. Given the memory bandwidth figures Apple is quoting for the M4 – 120GB/second – all signs point to them finally adopting LPDDR5X for their new SoC.

The mid-generation update to the LPDDR5 standard, LPDDR5X allows for higher memory clockspeeds than LPDDR5, which topped out at 6400 MT/second. While LPDDR5X is available at speeds up to 8533 MT/second right now (and faster speeds to come), based on Apple’s 120GB/second figure for the M4, this puts the memory clockspeed at roughly LPDDR5X-7700.

Since the M4 is going into an iPad first, for the moment we don’t have proper idea of its maximum memory capacity. The M3 could house up to 24GB of memory, and while it’s highly unlikely Apple has regressed here, there’s also no sign whether they’ve been able to increase it to 32GB, either. In the meantime, the iPads Pro will all either come with 8GB or 16GB of RAM, depending on the specific model.

2024 M4 iPad Pros: Coming Next Week

Wrapping things up, in traditional Apple fashion, prospective tablet buyers will get the chance to see the M4 in action sooner than later. The company has already opened up pre-orders for the new iPad Pros, with the first deliveries slated to take place next week, on May 15^th.

Apple is offering two sizes of the 2024 iPad Pro: 11 inches and 13 inches. Screen size aside, both sizes are getting access to the same M4 and memory configurations. 256GB/512GB models get a 3P+6E core CPU configuration and 8GB of RAM, meanwhile the 1TB and 2TB models get a fully-enabled M4 SoC with a 4P+6E CPU configuration and 16GB of RAM. The GPU configuration on both models is identical, with 10 GPU cores.

Pricing starts at $999 for the 256GB 11-inch model and $1299 for the 256GB 13-inch model. Meanwhile a max-configuration 13-inch model with 2TB of storage, Apple’s nano-texture matte display, and cellular capabilities will set buyers back a cool $2599.

Financial Times Alphaville: Look, we know we write a lot about Jane Street, but it's a fascinating place, and people seem interested in it. So it was hard to resist writing about the trading shop entering the mobile phone game space (kinda). Back in 2013 Jane Street developed a card game called "Figgie," which it made to simulate open outcry trading, teach trading nous, and generally burnish its reputation for quirkiness -- de rigueur in the industry. All you need are 40 cards from a normal deck, and the rules have been public for a while. During Covid, Jane Street made a virtual version for remote interns. Now it's a mobile game that's publicly available on the official Apple and Google app stores.

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Motional, the autonomous vehicle startup borne out of a $4 billion joint venture between Hyundai and automotive supplier Aptiv, will pause its commercial operations and delay plans to launch a driverless taxi service as it undergoes a restructuring, TechCrunch reported Tuesday. From a report: The aim is make progress on the core technology and the business model, while preserving capital, according to sources familiar with the changes. Motional has pushed its plan to launch a commercial driverless robotaxi service with its second-generation AV -- the Hyundai Ioniq 5 -- to 2026, two years later than planned. The company told employees Tuesday during an all-hands meeting that the changes will include layoffs, but did not provide a figure of how many people would be affected, according to sources who spoke to TechCrunch on condition of anonymity. Motional began notifying employees if they were laid off shortly after the meeting ended. The company employed more than 1,300 people prior to a 5% cut in workforce in March 2024. Motional will halt its commercial operations, which today includes taxi rides in autonomous Hyundai Ioniq 5 vehicles in Las Vegas via the Uber and Lyft network. The company will also end deliveries for Uber Eats customers in Santa Monica using its autonomous vehicles. A human safety operator is behind the wheel in all of its commercial operations.

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Microsoft has deployed a generative AI model entirely divorced from the internet, saying US intelligence agencies can now safely harness the powerful technology to analyze top-secret information. From a report: It's the first time a major large language model has operated fully separated from the internet, a senior executive at the US company said. Most AI models including OpenAI's ChatGPT rely on cloud services to learn and infer patterns from data, but Microsoft wanted to deliver a truly secure system to the US intelligence community. Spy agencies around the world want generative AI to help them understand and analyze the growing amounts of classified information generated daily, but must balance turning to large language models with the risk that data could leak into the open -- or get deliberately hacked. Microsoft has deployed the GPT4-based model and key elements that support it onto a cloud with an "air-gapped" environment that is isolated from the internet, said William Chappell, Microsoft's chief technology officer for strategic missions and technology.

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Microsoft engineers have contributed Windows On ARM64 support to the upstream GNU Compiler Collection (GCC) with the new "aarch64-w64-mingw32" target...

Less than two weeks after President Biden signed a bill that will force TikTok's Chinese owner, ByteDance, to sell the popular social media app or face a ban in the United States, TikTok said it sued the federal government on Tuesday, arguing the law was unconstitutional. From a report: TikTok said that the law violated the First Amendment by effectively removing an app that millions of Americans use to share their views and communicate freely. It also argued that a divestiture was "simply not possible," especially within the law's 270-day timeline, pointing to difficulties such as Beijing's refusal to sell a key feature that powers TikTok in the United States. "For the first time in history, Congress has enacted a law that subjects a single, named speech platform to a permanent, nationwide ban, and bars every American from participating in a unique online community with more than one billion people worldwide," the company said in the 67-page petition it provided, which initiates the lawsuit. "There is no question: The act will force a shutdown of TikTok by Jan. 19, 2025." TikTok is battling for its survival in the United States, with the fight set to play out primarily in courts over the next few months. While lawmakers who passed the bill have said the app is a national security threat because of its ties to China, the courts must now weigh those concerns against TikTok's argument that a sale or ban would violate the First Amendment free-speech rights of its users and hurt small businesses that owe their livelihood to the platform.

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VESA this morning is taking the wraps off of the next iteration of its DisplayHDR monitor certification standard, DisplayHDR 1.2. Designed to raise the bar on display quality, the updated DisplayHDR conformance test suite imposes new luminance, color gamut, and color accuracy requirements that extend across the entire spectrum of DisplayHDR tiers – including the entry-level DisplayHDR 400 tier. With vendors able to begin certifying displays for the new standard immediately, the display technology group is aiming to address the advancements in the display technology market over the last several years, while enticing display manufacturers to make use of them to deliver better desktop and laptop displays than before.

Altogether, the DisplayHDR 1.2 is easily the biggest update to the standard since it launched in 2017, and in many respects the first significant overhaul to the standard since that time as well. DisplayHDR 1.2 doesn’t add any new tiers to the standard (e.g. 1400), instead it’s all about increasing and/or tightening the specifications at each of its tier levels. In short, the VESA is raising the bar for displays to reach DisplayHDR compliance, requiring a higher level of performance and testing for more corner cases that trip up lesser displays.

All of these changes are coming, in turn, after over half a decade of technology improvements in the display space. Whereas even the original DisplayHDR 400 requirements represented a modestly premium display in 2017, nowadays even sub-$200 displays can hit those relatively loose requirements as panels and backlighting solutions have improved. And even at the high-end of things, full array local dimming (FALD) displays have gone from hundreds of zones to thousands. All of which has finally pushed VESA’s member companies into allowing higher standards going forward.

The identity of the leader of one of the most infamous ransomware groups in history has finally been revealed. From a report: On Tuesday, a coalition of law enforcement led by the U.K.'s National Crime Agency announced that Russian national, Dmitry Yuryevich Khoroshev, 31, is the person behind the nickname LockBitSupp, the administrator and developer of the LockBit ransomware. The U.S. Department of Justice also announced the indictment of Khoroshev, accusing him of computer crimes, fraud and extortion. "Today we are going a step further, charging the individual who we allege developed and administered this malicious cyber scheme, which has targeted over 2,000 victims and stolen more than $100 million in ransomware payments," Attorney General Merrick B. Garland was quoted as saying in the announcement. According to the DOJ, Khoroshev is from Voronezh, a city in Russia around 300 miles south of Moscow. "Dmitry Khoroshev conceived, developed, and administered Lockbit, the most prolific ransomware variant and group in the world, enabling himself and his affiliates to wreak havoc and cause billions of dollars in damage to thousands of victims around the globe," said U.S. Attorney Philip R. Sellinger for the District of New Jersey, where Khoroshev was indicted.

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Disney CEO Bob Iger says the company is shrinking the MCU with a new mission to drop the number of Marvel TV series to two a year and the film output to no more than three movies per year. The comment follows Iger conceding last year that Marvel had diluted audience's focus by making too many TV shows. From a report: Iger said this is part of Disney's overall strategy to reduce output and focus on quality, a strategy "that's particularly true with Marvel." "We're slowly going to decrease volume and go to probably about two TV series a year instead of what had become four and reduce our film output from maybe four a year to two, or a maximum of three," the Disney CEO said during the company's quarterly earnings call Tuesday. "And we're working hard on what that path is." Iger says Marvel has "a couple of good films in '25 and then we're heading to more 'Avengers,' which we're extremely excited about," adding: "Overall, I feel great about the slate. It's something that I've committed to spending more and more time on. The team is one that I have tremendous confidence in and the IP that we're mining, including all the sequels that we're doing, is second to none."

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While rolling out the new iPad Pro tablets today, Apple announced the M4 as their newest in-house silicon design...

Depuis quelques années, MediaTek s’est mis dans l’idée de se décoller de son image de concepteur de puces d’entrée de gamme pour smartphone, et est monté dans le train de l’Armv9 — le dernier jeu d’instruction Arm haute performance en date — avec sa série Dimensity 9000. Au menu : des cœurs à foison...

youngscrolls nous propose un inattendu mod pour Skyrim, nous nous expliquons, classiquement un mod va apporter des améliorations visuelles, ou étendre l'aventure du jeu, présentement ledit mod propose de changer l'ambiance musicale du jeu, tout simplement ! La nouvelle BO différe de celle imaginée, initialement, par Jeremy Soule, elle est moins basée sur les bruitages du jeuet l'auteur du mod nous promet un encodage de qualité. Cette nouvelle bande son est téléchargeable ici et vous pouvez visionner une vidéo, afin de juger de la qualité de cette dernière : […]

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Apple revealed its refreshed iPad Pro lineup at its "Let Loose" virtual event Tuesday, featuring a slimmer design, OLED displays, and the company's latest M4 chip. The new 13-inch and 11-inch models boast enhanced brightness, color saturation, and contrast, with the 13-inch model measuring just 5.1 millimeters thick, making it Apple's thinnest device ever. The M4 chip, which powers the new iPad Pros, delivers a 50% faster CPU and improved efficiency compared to the previous-gen M2 chip. Apple has also introduced updated accessories, including a redesigned Magic Keyboard with an aluminum palm rest and function key row, and the Apple Pencil Pro with squeeze gestures, Find My location tracking, and haptic feedback. The switch to OLED technology ensures consistent display quality across both iPad Pro sizes, addressing the previous disparity between the 12.9-inch Mini LED model and the smaller, traditional-screen version. The base storage for both models is now 256GB, with prices starting at $999 for the 11-inch and $1,299 for the 13-inch. Both are available for preorder today and will be available in stores next week.

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