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Nvidia in advanced talks to buy chipmaker Arm, says report
Nvidia in advanced talks to buy chipmaker Arm, says report
Nvidia is in advanced talks to acquire chipmaker Arm from SoftBank, according to Bloomberg, which cited anonymous sources. The companies apparently aim to reach a deal in the coming weeks, and the graphics card maker is the only suitor at the moment.
Earlier this month, The Wall Street Journal reported that Japanese conglomerate SoftBank was looking to sell the UK-based Arm, which it bought for $32 billion in 2016.
Apple announced in June that it would overhaul its Mac computers with Arm chips, which are similar to the ones it designs for iPhones and iPads, moving away from the Intel processors it's used for the past 14 years. Arm licenses its chip instruction set -- the collection of commands software can use to control a chip -- to companies like Apple that design their own processors.
Arm and Nvidia declined to comment. Softbank didn't immediately respond to a request for comment.
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.
Nvidia to buy SoftBank's Arm chip division for $40 billion
Nvidia to buy SoftBank's Arm chip division for $40 billion
Nvidia has acquired SoftBank's Arm chip division for $40 billion in cash and stock in the chip industry's largest deal ever. As part of the deal, made this Sunday, SoftBank will take an ownership stake in Nvidia that's expected to be less than 10%, the companies said in a joint statement.
Bloomberg reported last week that Nvidia and SoftBank were in advanced talks, with Nvidia the lone potential buyer. That followed an earlier report by The Wall Street Journal that SoftBank was considering a sale of Arm. The Journal also reported Saturday's news of an imminent Nvidia-SoftBank agreement.
Arm isn't as well-known as mega chip companies such as Qualcomm and Intel, but its work lies behind the processors inside many of the world's mobile phones.
Arm licenses designs to companies like Qualcomm but also licenses its chip instruction set -- the collection of commands software can use to control it -- to companies like Apple that design their own. Arm's designs are also used as the basis for chips made by Samsung and Nvidia.
In June, Apple said it would overhaul its Mac computers with its own Arm chips, which are similar to the ones it designs for iPhones and iPads, moving away from the Intel processors it has used for the past 14 years. Arm licenses its chip instruction set -- the collection of commands software can use to control a chip -- to companies like Apple that design their own processors.
SoftBank purchased the UK-based Arm in 2016 for $32 billion with the intent of bolstering its internet of things division. Nvidia said it expects the tie-up to boost its artificial intelligence ambitions.
"AI is the most powerful technology force of our time and has launched a new wave of computing," Nvidia founder and CEO Jensen Huang said in a statement. "In the years ahead, trillions of computers running AI will create a new internet-of-things that is thousands of times larger than today's internet-of-people."
The companies said they expect the deal to close in 18 months, noting that it will require approval of the US, UK, EU and China.
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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.
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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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Asus Chromebit review: An inexpensive Chrome OS PC on a stick
Asus Chromebit review: An inexpensive Chrome OS PC on a stick
A handful of Windows 10 laptops now cost less than $200. The tiny Intel Compute Stick, an Atom-powered Windows micro-desktop, is down to $119. Where else can computer prices go when the floor is so close? The latest answer can be found in the Asus Chromebit, a stick-shaped Chrome OS desktop that costs just $85 in the US, £90 in the UK and AU$149 in Australia.
When we've seen Chrome OS, Google's PC operating system, presented in a desktop form before, we've called it a Chromebox. That term applies here, but it's also part of the still-new "stick PC" category.
Despite looking like an oversized USB key, the Chromebit has the DNA of a desktop. It requires constant power, lacking any kind of internal battery. It needs to connect to the HDMI input on a TV or monitor, and it needs a separate keyboard and mouse, connected via Bluetooth or a USB dongle (Bluetooth seems like the better idea, there's only a single USB port, so you'll need a two-in-one USB dongle or else a USB hub to cover both a keyboard and mouse).
Sarah Tew/CNET
Like other Chrome OS laptops and desktops, the system itself is built to run the Google Chrome Web browser and little else. This is a device intended for cloud-based work, although Chrome OS now has some very basic file management features and the Chromebit can store a small amount of music and movie files in its 16GB of internal storage.
Despite the built-in limitations, the argument for the utility of an online-only computer is a persuasive one. Most email is handled through online services such as Gmail, movies stream through Netflix, Amazon or other services, and work happens in Google Docs or Microsoft's free-to-use online Office apps. There's often little reason to download and install third-party software even on a new Windows PC (something I can attest to, breaking open several fresh Windows laptops and desktops every month). In fact, the only must-have program I download immediately onto new Windows and OS X computers is the Google Chrome browser.
Different than most other ultra-budget PCs we've reviewed, including the Intel Compute Stick and HP Stream 11, the Chromebit runs an ARM-based CPU from Rockchip, a Chinese chip maker. It's cost-cutting move compared to the Intel Atom processors in other low-end computers. We also saw that chip in the Asus Chromebook Flip C100 earlier this year. But it's still fast enough for basic Web surfing, and didn't feel any slower in hands-on use than those Atom-powered $200-and-less Windows computers.
Sarah Tew/CNET
The only real problem with the Chromebit is figuring out who it's for. If you need a cheap travel computer, this isn't it, as it requires a mouse, keyboard, monitor, and power source (it might work well for a hotel room or conference room, however). If you're just looking to play streaming video or other media on a TV, the $35 Google Chromecast, among other options, can take care of that as well. If you need a small out-of-the-way desktop, it does the trick, but only as long as you can survive using online tools, and won't need to install new non-cloud-based programs.
But for a narrow slice of Web surfers who want basic surfing and cloud computing in a set-it-and-forget-it stick that plugs into the back of nearly any television, this is an acceptably robust, crash-free way to get that for a price that would have seemed unbelievable just a year or so ago.
Asus Chromebit
Price as reviewed
$85
PC CPU
1.8GHz Rockchip RK3288-C
PC Memory
2GB LPDDR3 RAM
Storage
16GB eMMC
Networking
802.11ac wireless, Bluetooth 4.0
Operating system
Chrome OS
Design and features
As much as we marveled over the tiny Intel Compute Stick and how small it was for a full Windows desktop with an Intel processor inside, the Asus Chromebit is a smaller, slicker-looking stick PC. Its matte plastic body and rounded edges stand in contrast to the squared-off industrial look of the Compute Stick, which is riddled with tiny vent holes. In contrast, the Chromebit has the polished consumer-friendly look of a Roku Stick or Amazon Fire TV Stick.
Sarah Tew/CNET
Early mockup images of the Chromebit showed its end-mounted HDMI output rotating 90 degrees to better fit some monitors. That feature does not appear to have made it to the final version. The HDMI connector sticks straight out from the end, where it's covered by a removable plastic cap and a 1-foot (30cm) HDMI extension cable is included for easier connectivity.
On one edge is a proprietary power connector that leads to a small power brick. On the Intel Compute Stick, power comes through a standard Micro-USB port, which makes it easier to replace if needed. The Compute Stick also includes a microSD card slot, good for expanding the on-board memory. Here you're stuck with 16GB, although it's assumed your photos, files and music will all be stored online, either in Google Drive or another cloud storage service.
Sarah Tew/CNET
Connecting the Chromebit to a TV or monitor is easier if you use the included one-foot HDMI extender cable. Asus also includes a small package of adhesive disks you can use to stick the lightweight chassis to the back of your display and out of sight. The Chromebit isn't unattractive by itself, but connected to its power supply, dangling from an HDMI input, and with something potentially sticking out of its USB port, things can get cluttered quickly, so tucking as much as possible out of the way is a good idea.
Ports and connections
Video
HDMI
Audio
None
Data
1 USB 2.0
Networking
802.11ac Wi-Fi, Bluetooth 4.0
Performance
We've previously reviewed Chrome OS systems with low-end Intel and ARM processors, mid-range Intel Core i3 chips, and even custom Nvidia CPU/GPU combos. The best thing we can say about the Rockchip-branded processor here is that in everyday Web-surfing and office productivity use, you'll probably forget it's even there.
Streaming HD video worked well, although loading up a movie from Google's own Play store took several seconds to commence each time. Opening a half-dozen simultaneous browser windows, including email, word processing, Google searches and light photo editing via Pixlr, presented no problem.
Sarah Tew/CNET
For more intensive tasks, you may be pushing the limit of the hardware, but in head-to-head browser-based tests it was only slightly slower than the Atom-powered HP Stream 11 laptop, and both were much faster than the Intel Compute Stick, which can be very sluggish in real-world use. The thing about the Chromebit that makes it feel even faster than the scores would suggest is its instant-on booting, while the Intel Compute Stick, for example, always feels like it takes forever to boot up.
Conclusion
Just when you think the steadily dropping price of Windows-based laptops and micro-desktops has made the idea of Chrome OS obsolete, you get something like the Asus Chromebit. It undercuts everything this side of a Chromecast on price, and when connected to a monitor and used for casual online tasks, you'd no doubt say it feels like a lot more than $85 worth of computer.
But it still suffers from the same identity crisis as other online-only Chrome systems, even more so because you can't use it as a cheap on-the-go laptop. I like the Chromebit, but it will only be the right machine for a small slice of shoppers.
Google Octane
HP Stream 117685Asus Chromebit7464Intel Compute Stick3019
Note: Longer bars indicate better performance
JetStream
HP Stream 1153.19Asus Chromebit44.05Intel Compute Stick24.4
