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New Intel chips want to make your laptop connect, work and play better
New Intel chips want to make your laptop connect, work and play better
Intel is adding six new laptop CPUs to its lineup, the company announced at this year's IFA technology trade show in Germany. Three new U-series and three new Y-series processors are joining Intel's 8th generation of Core i-series parts. Previously, these chips were known by the code names Whiskey Lake and Amber Lake.
These are for laptops, tablets and two-in-one devices that range from mainstream clamshells to thin, fanless designs, and include support for integrated gigabit Wi-Fi, which Intel says is a first for this class of consumer PC. Those system will be labeled as "Optimized for Connectivity."
Intel
The six new CPUs are in the Core-m and Core-i families and include:
1.1GHz Core m3-8100Y
1.3GHz Core i5-8200Y
1.5GHz Core i7-8500Y
2.1GHz Core i3-8145U
1.6GHz Core i5-8265U
1.8GHz Core i7-8565U
In introducing the new CPUs, Intel says that its goal was to address pain points like low-battery anxiety. By encouraging further power efficiencies, newer laptops can hit up to 16 hours of battery life. The U and Y-series chips may also provide enough of a performance boost to convince people holding into older computers to upgrade. Intel claims there are a large number of users still working on PCs more than five years old, and that the latest 8th-gen CPUs can usually double the performance of that 5-year-old system.
Intel is also focused on gaming, which is somewhat surprising, as the integrated graphics chips in Intel platforms have not kept up with PC gaming needs over the years. For most gamers, low-cost laptops and desktop with Nvidia graphics hardware for as little as $799 have filled some of that performance gap.
But Intel says it wants to support casual gaming, which the company defines as games like World of Warcraft or World of Tanks. To help buyers figure out what games they can play, and what settings to use, check out Intel's existing gameplay.intel.com website, which provides a list of compatible games, and suggested resolution and detail level settings based on your exact hardware, including updated setting for these new CPUs.
Intel
More importantly, although these new CPUs don't offer any new integrated graphics hardware, Intel says the overall efficiency of these chips, especially compared to the laptops of a few years ago, will offer smoother pen and inking performance and near-real-time 4K video rendering.
Look for laptops and tablets with these latest 8th-gen Intel CPUs to be announced at IFA and shipping soon after.
Laptops with the best battery life : See the top 25 laptops and 2-in-1 PCs with the longest battery life.
Great games for your non-gaming laptop : No GPU? No problem. The best games to sneak onto your work laptop.
Intel's Alder Lake chip could speed PCs by 30% while saving battery power
Intel's Alder Lake chip could speed PCs by 30% while saving battery power
Intel's new Alder Lake processor could boost the performance of personal computers by as much as 30% while delivering longer battery life, a breakthrough the chipmaker credits to a hybrid design that marries modules for top speed with others for efficient operation. It's an approach that's been used for years in smartphones.
At its Architecture Day event on Thursday, Intel said Alder Lake chips will come in three broad classes to power mainstream laptops, ultralight laptops and beefier desktop PCs. The three classes will be modeled on smartphone chips that combine high-performance computing cores for demanding jobs with smaller efficient cores that don't sap as much energy.
The number of performance and efficiency cores differ for each variety, but the fastest model will have eight of each. Intel's diagrams showed mobile Alder Lake chips combining six performance cores with eight efficiency cores and ultramobile chips combining two performance cores with eight efficiency cores. The Alder Lake family of chips will be available in PCs this fall.
The power and efficiency boost over today's 11th-gen Core models code-named Tiger Lake are a crucial selling point now that we have grown to expect laptops that can run for an entire day unplugged. Intel already competes with Apple and its M1 Mac processor that delivers improved power and battery life.
"We want [to] combine the best of both best of both in one system," Raja Koduri, who runs Intel's Accelerated Computing Systems & Graphics group, said in an advance briefing. Alder Lake's hybrid approach will help chart Intel's course for the next decade, Intel said.
Alder Lake's hybrid architecture is a variation of the Big.Little design that chip designer Arm rolled out a decade ago and now dominates smartphones. Apple employs the same approach with the M1 chip, which began powering Macs in 2020 and likely will be upgraded for more powerful Macs expected this year.
Alder Lake marks an important moment of unification and simplification for Intel's chip product line. Intel has been juggling a hodgepodge of new and old designs as it struggled with delays to its manufacturing process. The company fell behind its competitors as it wrangled with the problems, with AMD chip designs gaining market share, Apple ejecting Intel chips from its Macs and Asian giants Taiwan Semiconductor Manufacturing Co. (TSMC) and Samsung leapfrogging Intel in chip manufacturing.
Now all Intel's PC chips will be built with a manufacturing process called Intel 7. The same goes for Alder Lake's big sibling, Sapphire Rapids, a server chip due to arrive in the first half of 2022. Reducing the complexity should lower Intel's costs.
The chips were designed before Pat Gelsinger rejoined Intel earlier this year as chief executive. But they're an important part of his attempt to reclaim Intel's lost chipmaking leadership. He's also overseeing Intel's launch of a foundry business that builds chips for other companies, including rival Qualcomm, and hiring rival TSMC to build parts of its own chips.
"Intel is getting back to the Intel of old," said Tirias Research analyst Kevin Krewell, with the company rebuilding its past technical and operational acumen.
How much faster and more efficient will Alder Lake be?
Intel has been cagey with details but released some measurements of Alder Lake.
An average of speed tests shows Alder Lake's performance cores, known by the code name Golden Cove, demonstrates a 19% boost over today's Tiger Lake chips while running at the same clock speed, said Adi Yoaz, director of the Intel Core architecture. "This is our largest architectural shift in over a decade," he said.
Intel Alder Lake processors likely will all come with eight high-efficiency cores, shown in blue, for lower priority tasks and battery-saving operations. The number of high-performance cores, shown in purple, will range from eight on beefy desktop processors to two on ultramobile devices.
Intel
The new manufacturing process should add another 10% to 15% through hardware refinements that improve attributes like clock speed. Together, that could mean a 30% or more boost in top speeds, a big step up from past annual improvements typically less than 10%.
For preserving battery life while running a set of lower priority tasks, the Gracemont efficient core's design improves Intel's over earlier Skylake design, which is still widely used even though it's six years old. While juggling four tasks at once, efficiency cores require a fifth the power of Skylake cores, said Intel chip architect Stephen Robinson.
Using a technology called Thread Director, Alder Lake will determine whether computing jobs should be assigned to performance or efficiency cores or be shuffled around as new tasks arrive. Thread Director requires support built into Microsoft's upcoming Windows 11, but the current Windows 10 will be able to tap into some of its multicore features, said Rajshree Chabukswar, an engineer on the Alder Lake team.
Intel buying chips from rival TSMC
At Architecture Day, Intel revealed that TSMC, the foundry that builds Apple iPhone and Mac chips, will build Alchemist, the first member of Intel's new Arc family of standalone graphics chips. The chip is due early next year.
TSMC will also build Intel-designed graphics chips core to Ponte Vecchio, a massive processor package with high-speed links between many different chip elements. Ponte Vecchio will be the main brains of the Energy Department's $500 million Aurora supercomputer at Argonne National Laboratory. (Slow development of the processor has delayed the arrival of that machine.)
Expect Ponte Vecchio's array of packaging technologies -- an Intel manufacturing advantage -- to trickle down to mainstream products, said Real World Technologies analyst David Kanter.
"Ponte Vecchio is the Lamborghini of the chip world. Will this become the Lexus and then become the Toyota?" he asked. "The answer is yes."
Other Alder Lake chip specs
Alder Lake processors will come in varieties consuming as little as 9 watts for ultramobile devices and 125 watts for the beefy desktops used for the most demanding tasks like gaming and video editing.
The new chip is faster thanks to a variety of improvements in how it fetches instructions to execute, caches data instructions in high-speed memory, predicts the instructions it expects to run and recovers from mistakes in those predictions.
And it gets new instructions to execute artificial intelligence tasks with a technology called Advanced Matrix Extensions. AI is an immensely important new type of computer work, and many chip designers -- including Apple, Google, Qualcomm, Samsung, Arm and many startups -- are building dedicated AI acceleration electronics into chips.
Also built into Alder Lake are controllers to handle faster new memory standards, DDR5 (Double Data Rate 5) memory and, for mobile devices, LPDDR5 (Low Power Double Data Rate 5). Faster memory helps keep the processor fed with data so it doesn't have to spend as much time idling.
For connecting to the other devices like network controllers and graphics cards, Alder Lake chips debut support for the new fifth-generation PCI Express. That can double data transfer speed compared to PCIe 4.
Intel Shows Off the Chip Tech That Will Power Your PC in 2025
Intel Shows Off the Chip Tech That Will Power Your PC in 2025
Intel on Thursday showed a silicon wafer studded with chips built with a manufacturing process that's set to arrive in 2025, a signal intended to reassure customers that the company's years of chip manufacturing difficulties are behind it.
"We remain on or ahead of schedule against the timelines that we laid out," Chief Executive Pat Gelsinger said of the company's plan to improve manufacturing processes. He showed off a gleaming wafer of memory chips built with the company's upcoming Intel 18A process, which overhauls the transistors at the heart of chip circuitry and the way power is delivered to them.
Intel is trying to dramatically accelerate manufacturing progress to meet a 2025 goal of reclaiming the chip performance lead it lost to Taiwan Semiconductor Manufacturing Co. (TSMC) and Samsung. If it succeeds, it'll mean PC chips progress faster after a half decade of lackluster performance improvements. And it could mean Intel becomes more relevant to your digital life by building chips inside your car, phone and gaming PC graphics card.
At the heart of the effort is moving through five new manufacturing processes in four years: Intel 7 in 2021 with the Alder Lake chips now powering PCs, Intel 4 in 2022, Intel 3 in 2023, Intel 20A in early 2024 and Intel 18A in late 2024 -- though the lag between manufacturing availability and product delivery means 18A chips won't arrive until 2025. Showing the wafer is a "proof point" that Intel is on track, Gelsinger said.
Gelsinger, a chip engineer who returned to Intel a year ago, brings tech cred to the CEO job, but it'll be tough for the company to claw its way back. Once a chip manufacturer falls behind the leading edge, as IBM and GlobalFoundries did in recent years, it's harder to justify the colossal investments needed to advance to the new technology.
Embodying Intel's difficulty is Apple's decision to eject Intel Core processors from its Macs in favor of its own M series chips built by TSMC. At the same time, AMD has been gaining market share, Nvidia has been profiting from gaming and AI, and Amazon has introduced its own server processors.
Gelsinger spoke at Intel's investor day, where he and other executives sought to convince often skeptical analysts that the company's enormous spending on new chipmaking equipment will pay off. That will come through premium products and external customers arriving to use its new foundry manufacturing capacity.
Intel 20A introduces two major changes to chip design, RibbonFET and PowerVia, and Intel 18A refines it for better performance. RibbonFET is Intel's take on a transistor technology called gate all around, in which the gate that governs whether a transistor is on or off is wrapped entirely around ribbon-like channels that carry the electrical current.
And PowerVia delivers electrical power to the underside of the transistor, freeing the top surface for more data link circuitry. Intel is playing catch-up with RibbonFET, but it's got a lead with PowerVia, which the industry calls backside power delivery.
Intel is pressing with another lead -- packaging technology that links different "chiplets" into one more powerful processor. The Sapphire Lake member of Intel's Xeon server family arriving this year employs one packaging variety, called EMIB, while the Meteor Lake PC chip arriving in 2023 employs another, called Foveros.
Intel expects to keep up with Moore's Law, which calls for a doubling in the number of transistors per processor every two years. That'll happen through smaller transistors and new packaging techniques combining multiple "chiplets" into one processor.
Intel
Intel built its first Meteor Lake prototypes in the final quarter of 2021 with the Intel 4 process and booted them up in PCs, said Ann Kelleher, the executive vice president who leads Intel's technology development division.
"This is one of the best lead product startups we have seen in the last four generations of technology," Kelleher said. "Over its lifetime, Meteor Lake will ship hundreds of millions of units, offering the clearest demonstration of leadership packaging technologies in high volume."
Packaging will play a role in future PC processors, including Arrow Lake in 2024, which will incorporate the first chiplets built with Intel 20A. After that comes Lunar Lake, which will use Intel 18A chiplets. Meteor Lake and Arrow Lake will use a new graphics chip architecture that Intel promises will be "a huge step forward," which is important given that graphics chips these days do a lot more than paint pixels on your screen -- for example AI and video image processing.
Kelleher also detailed a host of research and manufacturing changes to prevent the catastrophic problems Intel faced in recent years. For one thing, improvements are now modular, so a problem with one needn't derail others. For another, Intel is developing contingency plans for when problems do arrive. And it's paying more attention to the advice of chip equipment suppliers like ASML.
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Nvidia's Grace AI chip leaves Intel processors behind
Nvidia's Grace AI chip leaves Intel processors behind
Nvidia has a new chip in the works for boosting artificial intelligence and other high-performance computing work: Grace, a design slated to arrive in mammoth supercomputers in 2023. Instead of accelerating conventional Intel-powered servers, though, the design includes its own built-in Arm processors.
Nvidia's current brainiest chip, the A100, is typically yoked to Intel Xeon processors. Nvidia chips do the grunt work, but Intel chips oversee it. With Grace, named after pioneering programmer Grace Hopper, the company opted to embed several Arm Neoverse processor cores within the chip to speed up processing, said Paresh Kharya, an Nvidia senior director. The chip news arrived at Nvidia's GTC 2021 conference this week.
The new chip should let AI customers run computing tasks that are vastly more complex than is possible with today's chip designs, a step toward the general artificial intelligence that is the holy grail of today's machine learning research, said Cambrian AI Researach analyst Karl Freund in a blog post.
The design illustrates Nvidia's dramatic ascent -- and Intel's struggles. Even decades of dominance in technology don't guarantee success when the rules of computing are constantly being rewritten. Your laptop likely comes with an Intel chip, but an Nvidia chip was more likely responsible for important AI work like filtering spam, improving image quality or recognizing your voice when you call your bank.
Not so many years ago, Nvidia was just a component supplier, a designer of graphics chips called GPUs to boost PC performance. Intel's family of processors, or perhaps compatible rival AMD chips, shouldered most of the computing work. Intel, though, has struggled in recent years to keep pace with chip miniaturization and to capitalize on the exploding use of AI.
The result: Nvidia's market capitalization vaulted over Intel's, reaching $357 billion compared with Intel's $278 billion. Much of the growth has been propelled by the fact that GPUs also turned out to be pretty good at AI work, specifically the computationally intense training process that builds the models that later run in data centers, PCs and phones.
Also in the ascendant is Arm, which licenses the chip designs and technology that power every smartphone, new M1-based Apple Macs and the world's fastest supercomputer. Nvidia is seeking to acquire Arm for $40 billion, a move some rivals like Qualcomm object to. Grace's integrated Arm chips let Nvidia read data from memory many times faster than with current designs, the company said.
Nvidia's Selene machine, currently the world's fifth-fastest supercomputer, pairs A100 chips with AMD Epyc CPUs. A 2023 Grace-based machine called Alps at Switzerland's National Supercomputing Center should be seven times faster, Kharya said. The Los Alamos National Laboratory in the US also will buy a Grace-powered supercomputer.
Under new Chief Executive Pat Gelsinger, Intel is working to reclaim its manufacturing lead, planning to tap into others' manufacturing abilities while it works on miniaturizing its circuitry inscribing technology.
Intel is building AI abilities into its main processors while working on dedicated hardware, too. It folded its Nervana chips operation, but its Habana AI acceleration processors are still under active development.
One hot area for AI chips is autonomous vehicles, whose self-driving algorithms rely on processing in camera imagery and other sensor data. It's a core focus for Nvidia AI chip work, for example with its Orin chip scheduled to debut in 2022 vehicles.
Nvidia CEO Jensen Huang announced new processors for AI, graphics and supercomputing at the company's GTC event.
Screenshot by Stephen Shankland/CNET
At GTC, Nvidia announced a new chip called Atlan with quadruple the performance. It should arrive in 2025 vehicles, said Danny Shapiro, Nvidia's senior director of automotive work. Like Orin and Grace, Atlan relies on Arm cores, too.
Nvidia also announced a grander autonomous vehicle technology package called Hyperion 8. It combines two Orin processors with a host of sensors: eight exterior cameras, four exterior wider-angle fisheye cameras, three interior cameras, nine radar scanners and one lidar 3D scanner. The technology should arrive later in 2021.
Nvidia extended a partnership with Volvo, the companies said. Volvo plans to use Orin chips in its next-generation vehicles.
Intel has its own autonomous vehicle division, Mobileye. Tesla develops its own AI chips for its cars.
Acer Next May 2022: 3D Screens, Predator Gaming Laptops and More
Acer Next May 2022: 3D Screens, Predator Gaming Laptops and More
Acer Next, the company's May announcement event, dropped a multitude of products on us -- mostly a raft of refreshes. We saw updates to existing models including the Spin 5, Swift 3 and Predator gaming laptops with current-generation processors and some design tweaks. One move in particular stands out, though: Acer's expanding its SpatialLabs technology to bring glasses-free stereoscopic 3D to games. It'll do this with a 15-inch 4K display, which will be offered as a standalone monitor and built in to one of its Predator Helios 300 gaming laptops.
SpatialLabs launched at last year's May Acer Next in conjunction with new hardware in Acer's Concept D line of creator-focused gear and an Unreal Engine developer program. Hence, new games supporting the technology. "Support" means the developer has created a profile for the game, which loads when you launch it via the new TrueGame application, along with the ancillary files necessary to render properly to the display. An ancillary app, SpatialLabs Go, will allow the computer to render stereoscopic 3D from most content that can be displayed full screen. The content is rendered to deliver the impression that nearer parts of the scene appear in front of the display (rather than rendering as if further objects were behind it, as the illustration above implies).
Rear view of the SpatialLabs View portable monitor.
Acer
Acer says more than 50 games will support the display, dubbed Acer SpatialLabs View, when it becomes available this summer starting at $1,099. New games will be added to the roster on a regular basis. It doesn't sound like a display you'd want for fast-moving games, given its 60Hz refresh rate and response time of up to a whopping 30ms. (For comparison, a decent response time for a gaming monitor is closer to 5ms or less.) There will also be a commercially oriented version of the monitor, the SpatialLabs View Pro, intended for kiosks and other sales and marketing uses.
The Predator Helios 300 SpatialLabs Edition.
Acer
The monitor can run off battery, though for how long we don't know. The battery does explain why it's relatively heavy -- at roughly 3.3 pounds (1.5 kilograms), it weighs as much as a laptop. Other specs include a maximum brightness of 400 nits, typically 323 nits, and 100% coverage of the Adobe RGB gamut.
You'll find the screen in the Predator Helios 300 SpatialLabs Edition, which also gets a bump up to a maximum of an Intel Core i9-12900H CPU, 32GB DDR5-4800 and PCIe 4 SSD. It's slated to ship in October starting at $3,400.
Acer has also added a 16-inch model to its Predator Triton 300 SE line, and brings the thin-ish 14-inch model up to date with 12th-gen Intel Core processors, LPDDR5-5200 RAM, PCIe 4 SSD and new display choices, including OLED. The smaller model ships in July starting at $1,600, and the 16-inch model will be available in August, starting at $1,750.
The company has also revved its gaming monitors, bringing the 27-inch XB273 up to 4K at 160Hz with DisplayHDR 600 certification and the Nitro XV272 up to 1440p 144Hz (overclocked to 170Hz on DisplayPort) with a peak brightness of 400 nits. Both are expected to ship between July and September, with the Predator starting at $999 and the Nitro at $449.
Acer Aspire Vero 14-inch model.
Acer
Aspire Vero
Acer's eco-friendly product line gets some new members, adding a 14-inch laptop with a Full HD screen and a new blue choice to the existing Aspire Vero 15-inch option, bumping both to 12th-gen Intel Core processors. A 24-inch Vero Veriton All-in-One desktop, 24- and 27-inch monitors (the larger model has a KVM switch and supports power delivery), keyboard and projector join the the lineup, expanding Acer's use of post-consumer recycled plastic to a wider variety of products.
Acer Veriton all-in-one with matching accessories.
Acer
The Veriton desktop incorporates 30% PCR materials, and some components are upgradable. It has a popup webcam, up to 12th-gen Core i9 and GeForce MX550 processors, supports up to 64GB DDR4 memory and takes advantage of some of the Intel chipset updates, such as Wi-Fi 6E.
For low-end projecting, the Vero PD2325W offers a low 1,280x800-pixel resolution and low light output of 2,200 lumens. It does have auto keystone correction (to fix vertical distortion) and can be mounted to the ceiling.
Acer Aspire Vero 14-inch (AV14-51) laptop ships in September starting at $750
Acer Aspire Vero 15-inch (AV15-52) laptop ships in September starting at $750
Acer Veriton Vero (VVZ4694G) AIO desktop ships in October starting at $799
Acer Vero monitors ship in Q3 2022. The CB273 27-inch starts at $350; the 24-inch B247Y G starts at $200.
Acer Vero PD2325W projector ships in Q3 2022 starting at $559
Acer Vero keyboard and mouse set ships in November starting at $80; the mouse alone will cost $30.
Spin and Swift and more
A new version of the Swift 3 has a 2,880x1,800-pixel OLED display (DisplayHDR True Black 500 certified) and upgrades to an H-series 12th-gen Core i7 processor -- that's the higher power CPU line -- and upgrades to LPDDR5 memory and PCIe 4 SSD.
The Spin 5 has a higher-resolution display with thinner bezels.
Acer
In addition to a slight redesign that has much more attractive, thinner bezels on the screen, the 14-inch Spin 5's display gets a minor boost in resolution to 2,560x1,600 pixels. It also works with the upgraded Acer Active Stylus (Wacom AES 2.0), and gets bumped to the latest generation of core processors, LPDDR5 memory, PCIe 4 SSD, Wi-Fi 6E and more. The Spin 3's bezels have also gotten a bit narrower and now uses 12th-gen Intel CPUs as well.
Acer Swift 3 OLED laptop (SF314-71) ships in July starting at $900
Acer Spin 5 convertible laptop (SP514-51N) ships in July starting at $1,350
Spin 3 convertible laptop (SP314-55/N) ships in August starting at $850
Acer
Acer also updated the $750 Chromebook Spin 714's screen and components to keep it fresh and competitive, and launched a rugged tablet, the $400 Chromebook Tab 510. The 10.1-inch tablet is built on Qualcomm's Snapdragon 7c Gen 2 Compute Platform, with a 1,920x1,00-pixel screen, 5- and 8-megapixel MIPI cameras (front and rear) and includes a dockable stylus. Acer claims an 11-hour battery life and says it meets MIL-STD 810H standards for durability. The Chromebook Spin 714 ships in August while the Tab will be available in July.
The company's lightweight business laptops, the TravelMate P4 and TravelMate Spin P4 and the more workhorse P2, jump to the vPro versions of its 12th-gen CPUs as well as AMD's Ryzen Pro (up to Ryzen 7) equivalents; you'll have both 14- and 16-inch options for the P4. The P4 and P2 also incorporate more PCR plastic into their construction.
They'll all become available in the third quarter of 2022. The P4 models start at $1,099, the Spin P4s at $1,199, and the Spin P2 at $899.
And finally, Acer boosted its Concept D 5 and 5 Pro laptops and Concept D 500 and 100 desktops with the latest generation Intel Core CPUs and Nvidia RTX GPUs. The compact, entry-level Concept D 100 still uses last-gen T series GPUs, however, and neither has been bumped to DDR5. And it looks like only the D 5 will be available in the US, at least for now; it ships in August starting at $2,500.
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Acer Next May 2022: 3D Screens, Predator Gaming Laptops and More
Acer Next May 2022: 3D Screens, Predator Gaming Laptops and More
Acer Next, the company's May announcement event, dropped a multitude of products on us -- mostly a raft of refreshes. We saw updates to existing models including the Spin 5, Swift 3 and Predator gaming laptops with current-generation processors and some design tweaks. One move in particular stands out, though: Acer's expanding its SpatialLabs technology to bring glasses-free stereoscopic 3D to games. It'll do this with a 15-inch 4K display, which will be offered as a standalone monitor and built in to one of its Predator Helios 300 gaming laptops.
SpatialLabs launched at last year's May Acer Next in conjunction with new hardware in Acer's Concept D line of creator-focused gear and an Unreal Engine developer program. Hence, new games supporting the technology. "Support" means the developer has created a profile for the game, which loads when you launch it via the new TrueGame application, along with the ancillary files necessary to render properly to the display. An ancillary app, SpatialLabs Go, will allow the computer to render stereoscopic 3D from most content that can be displayed full screen. The content is rendered to deliver the impression that nearer parts of the scene appear in front of the display (rather than rendering as if further objects were behind it, as the illustration above implies).
Rear view of the SpatialLabs View portable monitor.
Acer
Acer says more than 50 games will support the display, dubbed Acer SpatialLabs View, when it becomes available this summer starting at $1,099. New games will be added to the roster on a regular basis. It doesn't sound like a display you'd want for fast-moving games, given its 60Hz refresh rate and response time of up to a whopping 30ms. (For comparison, a decent response time for a gaming monitor is closer to 5ms or less.) There will also be a commercially oriented version of the monitor, the SpatialLabs View Pro, intended for kiosks and other sales and marketing uses.
The Predator Helios 300 SpatialLabs Edition.
Acer
The monitor can run off battery, though for how long we don't know. The battery does explain why it's relatively heavy -- at roughly 3.3 pounds (1.5 kilograms), it weighs as much as a laptop. Other specs include a maximum brightness of 400 nits, typically 323 nits, and 100% coverage of the Adobe RGB gamut.
You'll find the screen in the Predator Helios 300 SpatialLabs Edition, which also gets a bump up to a maximum of an Intel Core i9-12900H CPU, 32GB DDR5-4800 and PCIe 4 SSD. It's slated to ship in October starting at $3,400.
Acer has also added a 16-inch model to its Predator Triton 300 SE line, and brings the thin-ish 14-inch model up to date with 12th-gen Intel Core processors, LPDDR5-5200 RAM, PCIe 4 SSD and new display choices, including OLED. The smaller model ships in July starting at $1,600, and the 16-inch model will be available in August, starting at $1,750.
The company has also revved its gaming monitors, bringing the 27-inch XB273 up to 4K at 160Hz with DisplayHDR 600 certification and the Nitro XV272 up to 1440p 144Hz (overclocked to 170Hz on DisplayPort) with a peak brightness of 400 nits. Both are expected to ship between July and September, with the Predator starting at $999 and the Nitro at $449.
Acer Aspire Vero 14-inch model.
Acer
Aspire Vero
Acer's eco-friendly product line gets some new members, adding a 14-inch laptop with a Full HD screen and a new blue choice to the existing Aspire Vero 15-inch option, bumping both to 12th-gen Intel Core processors. A 24-inch Vero Veriton All-in-One desktop, 24- and 27-inch monitors (the larger model has a KVM switch and supports power delivery), keyboard and projector join the the lineup, expanding Acer's use of post-consumer recycled plastic to a wider variety of products.
Acer Veriton all-in-one with matching accessories.
Acer
The Veriton desktop incorporates 30% PCR materials, and some components are upgradable. It has a popup webcam, up to 12th-gen Core i9 and GeForce MX550 processors, supports up to 64GB DDR4 memory and takes advantage of some of the Intel chipset updates, such as Wi-Fi 6E.
For low-end projecting, the Vero PD2325W offers a low 1,280x800-pixel resolution and low light output of 2,200 lumens. It does have auto keystone correction (to fix vertical distortion) and can be mounted to the ceiling.
Acer Aspire Vero 14-inch (AV14-51) laptop ships in September starting at $750
Acer Aspire Vero 15-inch (AV15-52) laptop ships in September starting at $750
Acer Veriton Vero (VVZ4694G) AIO desktop ships in October starting at $799
Acer Vero monitors ship in Q3 2022. The CB273 27-inch starts at $350; the 24-inch B247Y G starts at $200.
Acer Vero PD2325W projector ships in Q3 2022 starting at $559
Acer Vero keyboard and mouse set ships in November starting at $80; the mouse alone will cost $30.
Spin and Swift and more
A new version of the Swift 3 has a 2,880x1,800-pixel OLED display (DisplayHDR True Black 500 certified) and upgrades to an H-series 12th-gen Core i7 processor -- that's the higher power CPU line -- and upgrades to LPDDR5 memory and PCIe 4 SSD.
The Spin 5 has a higher-resolution display with thinner bezels.
Acer
In addition to a slight redesign that has much more attractive, thinner bezels on the screen, the 14-inch Spin 5's display gets a minor boost in resolution to 2,560x1,600 pixels. It also works with the upgraded Acer Active Stylus (Wacom AES 2.0), and gets bumped to the latest generation of core processors, LPDDR5 memory, PCIe 4 SSD, Wi-Fi 6E and more. The Spin 3's bezels have also gotten a bit narrower and now uses 12th-gen Intel CPUs as well.
Acer Swift 3 OLED laptop (SF314-71) ships in July starting at $900
Acer Spin 5 convertible laptop (SP514-51N) ships in July starting at $1,350
Spin 3 convertible laptop (SP314-55/N) ships in August starting at $850
Acer
Acer also updated the $750 Chromebook Spin 714's screen and components to keep it fresh and competitive, and launched a rugged tablet, the $400 Chromebook Tab 510. The 10.1-inch tablet is built on Qualcomm's Snapdragon 7c Gen 2 Compute Platform, with a 1,920x1,00-pixel screen, 5- and 8-megapixel MIPI cameras (front and rear) and includes a dockable stylus. Acer claims an 11-hour battery life and says it meets MIL-STD 810H standards for durability. The Chromebook Spin 714 ships in August while the Tab will be available in July.
The company's lightweight business laptops, the TravelMate P4 and TravelMate Spin P4 and the more workhorse P2, jump to the vPro versions of its 12th-gen CPUs as well as AMD's Ryzen Pro (up to Ryzen 7) equivalents; you'll have both 14- and 16-inch options for the P4. The P4 and P2 also incorporate more PCR plastic into their construction.
They'll all become available in the third quarter of 2022. The P4 models start at $1,099, the Spin P4s at $1,199, and the Spin P2 at $899.
And finally, Acer boosted its Concept D 5 and 5 Pro laptops and Concept D 500 and 100 desktops with the latest generation Intel Core CPUs and Nvidia RTX GPUs. The compact, entry-level Concept D 100 still uses last-gen T series GPUs, however, and neither has been bumped to DDR5. And it looks like only the D 5 will be available in the US, at least for now; it ships in August starting at $2,500.
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Apple's M2 MacBook Air Available for Preorder Starting July 8
Apple's M2 MacBook Air Available for Preorder Starting July 8
Apple's new MacBook Air with M2 chip will be available to order on Friday starting at 5 a.m. PT, the tech giant said on Wednesday. Orders are expected to start arriving at customers' locations on July 15.
The M2 MacBook Air, which was unveiled in June at Apple's Worldwide Developers Conference, features the company's next-gen Apple Silicon chip, a fanless body in four color options and a 13.6-inch Liquid Retina display.
Apple said its M2 chip brings improved speed and efficiency to the new MacBook Air. The M2 makes "intensive workloads like editing complex timelines in Final Cut Pro" nearly 40% faster than the previous generation and applying "filters and effects in apps like Adobe Photoshop" up to 20% faster, Apple said.
The M2 MacBook Air starts at $1,199 (£1,249, AU$1,899) with an eight-core CPU and eight-core GPU, 8GB of memory and a 256GB solid-state drive. There's also a $1,499 version with an eight-core CPU and 10-core GPU, 8GB of memory and a 512GB SSD.
The redesigned laptop will be available to order on Apple's website and in the Apple Store app. It's available in available in four colors: silver, space gray, starlight and midnight.
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This story is part of WWDC 2022, CNET's complete coverage from and about Apple's annual developers conference.
Apple on Monday debuted the new M2 processor, a chip that improves core processing performance 18% over the M1 without hurting battery life in the company's new MacBook Air and 13-inch MacBook Pro laptops.
The 18% speed boost comes from the M2's redesigned central processing units. The processor has four fast CPU cores and four efficient cores, a hybrid approach drawn from the smartphone world. By redesigning the graphics processing units and increasing their count up to a maximum of 10 instead of eight for the M1, GPU performance is 35% faster. Overall, the new MacBook Air is 20% faster at Photoshop image editing and 38% faster at Final Cut Pro video editing, Apple said.
"We continue to have a relentless focus on power-efficient performance," Johny Srouji, Apple hardware team leader, said at the Worldwide Developers Conference.
Power efficiency is crucial to shrinking laptops since the biggest component is the battery. The new MacBook Airs take up 20% less volume but still have a long, 18-hour battery life, Apple said. The company also is using the M2 in a new 13-inch MacBook Pro.
Apple's M2 processor has large amounts of high-speed cache memory built onto the chip itself and up to 24MB of regular memory included in the chip package, two attributes that should boost performance over Apple's 2020-era M1.
Apple/Screenshots by Stephen Shankland/CNET
The M2 processor also has a significant memory boost, reaching up to 24GB instead of 16GB for the M1. Memory is important, especially as software gets bigger and laptops have years-long lifespans. M series chips build memory directly into the processor package for fast performance, but it's not upgradable.
Apple debuted the M1 at 2020's WWDC and began shipping it later that year in the earlier version of the MacBook Air. The M1, along with beefier successors called the M1 Pro, M1 Max and M1 Ultra, struck an effective balance between performance and battery life and earned strong reviews.
The M2 doubles down on the same balanced approach, offering updated processing cores that are variants of the chips at the heart of newer iPhones. The new chips continue the gradual ejection of Intel processors from the Mac family of personal computers and could enable the last Intel-powered member, the Mac Pro, to switch to Apple chips.
Designing processors is an expensive, difficult undertaking. But with the M series chips, Apple takes advantage of the A series chip design work it already does for its iPhones and iPads, then pays Taiwan Semiconductor Manufacturing Co. to build the chips on its advanced product lines.
The M2 is built on TSMC's 5nm (5 nanometer) manufacturing process, but it's an improved version to the one used for the M1. TSMC is working on a more advanced 3nm process that should let customers squeeze in somewhat more transistors, the core electronics elements that process data on a chip.
The M2 has 20 billion transistors, a 25% increase over the M1, Apple said.
One use of the new transistors is the increased GPU count. Another is an upgraded neural engine -- a chip block used to accelerate artificial intelligence workloads. The new 16-core neural engine can perform 15.8 trillion operations per second, Apple said, a 40% speed boost.
With its own chips, Apple gets more control over the technology foundation of its products -- a principle important to Chief Executive Tim Cook. That includes both the processor itself, with specific features like AI acceleration, video encoding, and security, and the software Apple writes to take advantage of those features.
Apple's M series and A series chips are members of the Arm processor family. UK-based Arm licenses designs that companies can customize to varying degrees. Arm chips from Qualcomm, Apple, MediaTek, Samsung, Google and others power just about every smartphone for sale.
The Apple M2 processor is significantly larger than the M1. That increases manufacturing costs. Apple raised prices for its M2-based MacBook Air laptops.
Apple/Screenshot by Stephen Shankland/CNET
Intel has struggled over most of the last decade with problems advancing its manufacturing. That stalled its progress while Apple, Qualcomm, AMD, Nvidia and other Intel rivals took advantage of TSMC's manufacturing progress.
Because Apple doesn't offer its chips to others, and because the majority of PCs use Intel processors, Intel is somewhat insulated from Apple's shift. Intel is working to modernize its manufacturing, spending tens of billions of dollars on new chipmaking fabs. Intel aims to reclaim its lead over rivals TSMC and Samsung in 2024.
Intel's newest PC processor, code-named Alder Lake, embraces the same mix of high-performance and high-efficiency CPU cores found in smartphone chips and Apple's M series chips. Future products are designed to improve GPU performance, in particular with Intel's renewed focus on high-end graphics that's designed to wean the company from reliance on AMD and Nvidia. That's important for one big market, gaming, where PCs with Intel and AMD processors are much more widely used than Macs.
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6 Things That Didn't Make an Appearance at the Apple Event
6 Things That Didn't Make an Appearance at the Apple Event
Apple introduced an array of new devices at its "Peek Performance" event on Tuesday: a 2022 5G iPad Air with an M1 processor, an upgraded iPhone SE with 5G (and the same A15 chip as the iPhone 13) and the desktop-and-monitor pairing of the Mac Studio and Mac Studio Display. The M1 Ultra, a new processor even more powerful than the M1 Max, also took the stage as a chip option available for the Mac Studio.
While the newly announced products aligned with a lot of the speculation preceding the event (here's what the 2022 iPhone SE rumors did and didn't get right), not every rumored device ended up making an appearance. Here are all the Apple products that didn't get launched during Tuesday's event -- and that we're still hoping to see in 2022.
Upgraded Mac Pro
The Mac Pro, a desktop tower targeted at professionals, is due for an upgrade. It's the only remaining Mac that hasn't yet made the leap from an Intel processor to one of Apple's own chips (Apple discontinued the 27-inch iMac Tuesday instead). And we're right at Apple's self-imposed two-year deadline to stop using third-party processors, so it's more than likely we'll see a new Mac Pro, maybe with a brand-new M1 Ultra chip. It's possible this desktop will show up at Apple's next event. Check out our full roundup of Mac Pro rumors.
Faster Mac Mini
The 2020 Mac Mini with Apple's M1 processor could see an update powered by the M1 Pro, M1 Max or even the newly announced M1 Ultra chip. Reliable tech analyst Mark Gurman predicted in February that a new Mac Mini would be one of the first Macs that Apple introduced this year. While the Mac Studio technically proved him wrong at Apple's Tuesday event, Gurman did say more Macs would follow in May or June. A 2022 Mac Mini could be one of them.
iPad Pro and entry-level iPad
The rumor mill speculated that the iPad Pro and entry-level iPad would get upgrades at Apple's March event, but Apple instead introduced the 2022 iPad Air. Considering Apple's typical product release timelines, the next possible arrival times for the iPad and iPad Pro are either in June or sometime in the fall. Speculation says a 2022 iPad Pro could include MagSafe and a battery upgrade. Here are the most up-to-date rumors about the next iPad Pro.
New MacBook Pro and MacBook Air
No MacBooks showed up at the Apple event, but new versions of the MacBook Pro and MacBook Air are still on the radar for this year. Rumors suggest that both the new Air and new Pro could come with a new M2 chip. Or maybe it'll be the M1 Ultra announced on Tuesday.
Other Apple products we could see in 2022
We're also expecting the iPhone 14 in the fall. Much less likely for this year is a foldable iPhone, which Apple has reportedly pushed back to 2025. Some new accessories could be on the horizon: AirPods Pro 2, an Apple Watch 8 with new health features or even the long-awaited Apple VR/AR headset. A couple of home entertainment devices are reportedly in the works as well. On the software front, look out for iOS 16 and MacOS 13, both of which could get a preview at the next Apple event. Speaking of which…
When is the next Apple event?
Now that Apple's spring event is over, we probably won't see another until June. That's Apple's annual Worldwide Developers Conference. WWDC is a goldmine of Apple announcements, and we'll be keeping our eyes out for any confirmation of the dates for WWDC 2022. In the meantime, here's everything we learned at WWDC 2021.
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Despite hopes of Apple unveiling an updated 27-inch iMac, the company instead discontinued the 27-inch version of the desktop altogether. That change comes amid a day full of news out of Tuesday's Apple event, including new iPhone models and new, smaller desktop devices, which it seems are intended to replace the 27-inch iMac.
The 27-inch iMac is one of the last Macs that still run on Intel rather than Apple's own chips. Apple didn't immediately respond to a request for comment on why it discontinued the desktop.
Apple's most recent 27-inch iMac launched in 2020, and was priced at $1,799, $1,999 and $2,299. It added higher-end CPU and GPU choices over the previous iteration, also expanding RAM and storage and adding nano-texture screen coating.
You can check out CNET's live blog to see how Tuesday's Apple event unfolded, or go here for everything Apple announced.
