Hasta La Gadget!

Despite Intel’s recent woes, I didn’t expect to see CEO Pat Gelsinger joining 15,000 or so of his colleagues being shown the door. Gelsinger is a storied engineer and business success who laid down an exhaustive rescue plan when he took the helm of the beleaguered chipmaker in 2021. It was never going to be a quick fix, given the company’s long legacy of missteps. Gelsinger may be the public face of Intel’s current malaise, but the problems started long before his tenure and will likely keep going.

How Intel got here

Gelsinger was tasked with addressing almost two decades’ worth of bad decisions, all of which have compounded. Intel became an industry-swallowing behemoth as one half of the Wintel alliance, producing chips that went hand-in-glove with Microsoft Windows. The vast profits that flowed from this partnership meant there was an institutional reluctance to look too hard at new business ventures that could distract from its golden goose, still going strong all these years later.

In 2005, then-CEO Paul Ottellini turned down the chance to make the iPhone’s system-on-chip. It would have been easy for Intel, since it already made XScale ARM chips for mobile devices. You could find an Intel ARM chip inside popular phones like the BlackBerry Pearl 8100 and Palm Treo 650. A year later, it would sell XScale to Marvell, believing it would be able to shrink its x86 chips to work on smartphones. The first Intel Atom handsets showed some degree of promise, but the Snapdragons of the day — produced by considerably smaller rival Qualcomm — beat them pretty easily.

At the same time, Intel was working on Larrabee, its own discrete GPU platform based on the x86 architecture. Despite several years of marketing bravado and suggestions it would “kill” AMD/ATI and NVIDIA, Intel axed it in 2010 in favor of bundling integrated graphics into its regular processor products. The decision would hand the bulk of the GPU market to NVIDIA, making it the go-to name for gaming, supercomputers, crypto and AI, posting quarterly revenues of $35.1 billion on November 20.

Could Intel have foreseen the meteoric rise of AI? Maybe not. But Reuters reported former Intel CEO Bob Swan turned down the chance to invest in OpenAI in 2017. It was looking for a hardware partner to reduce its reliance on NVIDIA, offering a generous deal in the process. Swan, however, reportedly said he couldn’t see a future for generative AI, and Intel’s data center unit refused to sell the hardware at a discount.

Intel’s core strength was in the quality of its engineering, the solidity of its product and that it always kept close to the cutting edge. (There are parallels to be drawn between Intel and Boeing, both of which are watching their reputation for quality erode in real time.) Sadly Intel’s bread-and-butter business hit the skids after the company failed to produce 10-nanometer chips by its planned 2015 deadline. The company’s famous “tick, tock” strategy of launching a new chip process one year and a refined version the next ground to a halt.

These issues enabled Intel’s competitors to step in and steal a march, harnessing more modern chip architectures. AMD, which held a little over 10 percent of the chip market for much of the 2010s, has seen its market share double in the last few years. The biggest beneficiary, of course, was TSMC, the Taiwanese chip factory that has become the envy of the world. Even if Intel controls the bulk of the x86 processor market, it’s TSMC that makes the chips for Apple, Qualcomm, NVIDIA and AMD, among others. Intel, meanwhile, was saddled with an older chip manufacturing process that it couldn’t use to catch up with its rivals.

The Gelsinger doctrine

Gelsinger was as close to an Intel “lifer” as you could imagine, joining the company at 18 and rising to the position of Chief Technology Officer by 2001. In 2009, he left Intel to become COO at EMC and held the position as CEO of VMWare for almost a decade. After taking the reins at Intel, he laid down a detailed plan to mastermind its glorious comeback.

Step one would be to separate Intel’s design and manufacturing business into two distinct entities. With one eye on US subsidies through the Biden administration’s CHIPS and Science Act, Gelsinger pledged to build two new chip factories harnessing the same EUV (Extreme Ultraviolet Lithography) technology used by TSMC.

Gelsinger was also determined to reestablish discipline in Intel’s chip business and get back to the “tick, tock” structure. Unfortunately, the production delays that had been building up since 2015 meant that Gelsinger’s target was just to get back to parity. In the interim, Intel would also get TSMC to manufacture some of its newest chips which, while costly, would help address any concerns the company was lagging even further behind.

Nobody had any doubts as to the size of the task facing Gelsinger, but there was plenty of room for optimism. Gelsinger was humble enough to accept Intel couldn’t simply stay on its current course, and had to embrace its new status. He proposed Intel could grin and bear the short-term pain for the company’s eventual benefit. If it could build for the future, harness its rivals to keep it in the game and restore faith in its processes, Intel would emerge from this as the winner. All it needed was for nothing to get worse.

Things got worse

At the end of October, Reuters reported Gelsinger made a colossal faux-pas when speaking about TSMC. The CEO was quoted saying “You don’t want all of our eggs in the basket of a Taiwan fab,” and that “Taiwan is not a stable place.” This offended TSMC to such an extent that it ended a discount Intel had taken advantage of for years

Sadly, Gelsinger’s desire to restore discipline to the chip division would also backfire, with the latest Core processors blighted by voltage instability issues. Intel was forced to extend those chips’ warranties, which came at an additional cost it couldn’t really afford. In August, it posted a loss of $1.6 billion and pledged to cut 15,000 employees in an attempt to right the ship. But it was forced to post the biggest quarterly loss in its history three months later, losing $16.6 billion, albeit much of that tied to revaluing company assets and paying for the layoffs. Worse, Intel’s new production process, 18A, reportedly failed crucial tests ahead of its 2025 debut.

Perhaps the lowest point in Intel’s year was when its stock price fell low enough that it became a takeover target. Rumors suggested Qualcomm was potentially eyeing a takeover while others indicated ARM had made inquiries about purchasing Intel’s product unit.

Where does this leave Intel?

The New York Times reports Intel’s board grew frustrated with Gelsinger as his rescue plan was “not showing results quickly enough.” But Intel wasn’t going to hire Gelsinger in 2021 and suddenly bounce back in 2024. Building large and complex chip factories isn’t easy. Nor is getting thousands of engineers to solve difficult problems around chip yields. And obviously reversing a slide that started in 2015 was never going to happen overnight.

Intel’s board is presently looking for a full-time successor to Gelsinger but it’s hard to see what someone else would do differently. After all, the company still needs to build those factories in order to own and control its future, and it still needs to fix its processes. Unless, of course, the next CEO is going to be told to just stanch the bleeding and keep the money rolling in. Even in its deeply-wounded state after a few bad quarters, Intel is still the biggest name in the x86 chip world and will keep making money for years to come.

You could easily imagine Intel’s board sitting around, prioritizing a few years of healthy profits at the cost of the company’s long-term future. It can keep selling modified versions of its existing desktop chips, ceding the technological leadership to AMD, Qualcomm and others. There’s probably a decade or two of big industrial clients who would be happy using Intel processors for their hardware for as long as they’re still using Windows. Perhaps that would be fitting given how big and ossified Intel has become, admitting that it can’t move fast enough to evolve.

It’s likely that scenario won’t be allowed to happen given Intel’s broader role in the global tech space. Even if the incoming administration criticized the CHIPS Act — Intel is still set to be its largest funding recipient — having a domestic manufacturer of Intel’s scale will be an asset few sane governments would allow to fall. But just switching CEOs won’t suddenly fix the company’s big, hard-to-solve problems. It wasn’t Pat Gelsinger who screwed up power design for Raptor Lake, nor did he pass on the opportunity to make the iPhone CPU all those years ago. The TSMC stuff, he can own that, but while a CEO sets the direction of travel, he can’t micromanage every process in a company of Intel’s scale. So whoever replaces him will have the same big stack of issues to tackle, knowing that the board’s patience will be even shorter this time out.

This article originally appeared on Engadget at https://www.engadget.com/computing/firing-pat-gelsinger-doesnt-solve-intels-problems-173420381.html?src=rss

Google’s video generation tool, Veo, is expanding its reach to select Google Cloud customers via Vertex AI, the company’s AI development platform. Veo, which can generate six-second 1080p video clips from text prompts or images, will be available in private preview. Early adopters include Quora, which will integrate Veo into its Poe chatbot platform, and Mondelez International, owner of Oreo, which plans to leverage it for marketing content creation.

Prompt: A lone cowboy rides his horse across an open plain at beautiful sunset, soft light, warm colors. (Image: Google)

Launched in April, Veo offers diverse capabilities such as cinematic styles, landscape shots, and time-lapse effects. It also supports advanced features like masked editing for targeted modifications and basic video physics simulation. However, challenges persist; generated objects may lack consistency, and physics inaccuracies are common.

Veo aims to compete with similar tools from OpenAI, Adobe, and Meta, offering enterprise-grade performance and security enhancements.

Prompt: Crochet elephant in intricate patterns walking on the savanna. (Image: Google)

Google’s approach emphasizes “enterprise readiness.” Veo has undergone significant refinement for high-definition video creation in multiple aspect ratios. The model has been trained on curated datasets, including potentially some YouTube content, aligning with Google’s data usage policies. While Veo benefits from prompt-level content filters and watermarking technology like SynthID to mitigate misuse, challenges like deepfake risks and copyright issues remain.

Prompt: Many spotted jellyfish pulsating under water. Their bodies are transparent and glowing in deep ocean. (Image: Google)

Despite its potential, Veo has limitations. It risks alienating creatives as AI increasingly disrupts media and animation jobs. Google’s deliberate rollout strategy reflects caution, focusing on feedback-driven improvements before broader release. No timeline has been given for Veo’s general availability on Vertex AI or integration with other Google services.

Simultaneously, Google announced wider access to its image generator, Imagen 3, on Vertex AI, although advanced features remain limited to waitlisted users. This dual launch reflects Google’s broader push to integrate generative AI into enterprise and creative workflows.

Google Expands Veo AI Video Generator To Cloud Customers

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When an established company enters a new product category, there’s a lot of pressure on it to immediately impress the masses, especially when it has a proven track record in its industry. That’s what Cambridge Audio faced this year when it debuted its first wireless headphones, the Melomania P100 ($279). It had already made the Melomania M100 wireless earbuds, but with a reputation largely built on hi-fi amplifiers, digital-to-analog converters (DACs) and speakers, the company was entering uncharted waters.

With the P100, Cambridge Audio managed to leave a lasting first impression right out of the box. Starting with the refined look, it’s evident that the company is serious about taking aim at the best in the category. It partnered aesthetics with long battery life, user-friendly maintenance options and a crisp, clear sound profile for a very compelling package on its first attempt.

What’s good about the Melomania P100?

The P100 certainly looks like a set of flagship headphones. In an age when a lot of companies opt for plastic-heavy builds, even for their high-end models, it’s nice to see a polished design for less than $300. Cambridge Audio combined aluminum accents with vegan leather and soft memory foam ear cups to do most of the heavy lifting here. There’s also cross-hatched fabric on the underside of the headband that offers a textural contrast while maintaining the color scheme.

Cambridge Audio didn’t make any sacrifices on battery life with the P100, promising up to 60 hours of use with active noise cancellation (ANC) turned on. What’s more, the company says you can eke out up to 100 hours of play time with ANC disabled, depending on volume levels and other settings. I had no trouble hitting 60 hours during my battery tests, which I run almost entirely while employing noise cancellation. And to keep the P100 running longer than some headphones would, the company allows users to replace the battery themselves when performance dips (ear pads are also replaceable).

The P100 uses the same Class AB amplification that powers Cambridge Audio’s CX series hi-fi amps. This provides sound performance that’s “audibly better” than what’s found in nearly all wireless headphones, according to the company. Three-layer 40mm drivers complete the audio platform, which is tuned for “precise highs and dynamic lows.”

During my tests, the P100 excelled at reproducing crisp, clean details across every genre I threw at it. Even in the heaviest parts of Sleep Token’s “Vore,” the snare hits remained punchy, cutting through distorted guitar riffs with vocals layered in. Prominence is given to treble and mids though, as bass-heavy tracks like that one don’t quite have the booming punch they typically do. As such, the P100 was at its best for styles that demanded less low-end growl — genres like country, jazz and ‘90s grunge.

What’s not so good about the Melomania P100?

Billy Steele for Engadget

My notes on the overall sound profile of the P100 aren’t great news for those who crave a bombastic blast when listening to music by Kendrick Lamar, Kaytranada and other bass-heavy tunes. Cambridge Audio does offer a selection of presets to alter the tuning, as well as a full EQ for custom profiles. The changes were more subtle for the EQ sliders, so they didn’t deliver the thump I was after. But, unlike a lot of equalizer options from other companies, none of these muddied the sound or made things worse.

Despite the soft touch of the P100’s ear pads, they don’t offer enough buffer from the ridges of the ear cups during longer listening sessions. I used these on a cross-country trip that involved a full day of air travel and wearing headphones for a solid six hours. After about 30 minutes, I could start to feel those edges. And while they never became painful, this kept the P100 from competing with the likes of the Bose QuietComfort Ultra Headphones and Sony’s WH-1000XM5 in terms of overall comfort.

Cambridge Audio did well to cover all the basics on the P100. There’s reliable, easy-to-use physical controls, solid adaptive ANC performance and support for aptX Lossless. Wear detection and multipoint Bluetooth are also in tow, as is wired listening at 24-bit/96kHz quality and a five-minute quick charge tool. What you won’t find are things like speech detection, any mention of spatial audio or some of the automated features the competition offers. Sure, I can excuse the omissions on the P100 given the price, but these are the types of conveniences that are increasingly becoming core specs, so one or two would’ve been nice to have.

Final verdict on the Melomania P100

I’m impressed by what Cambridge Audio has built for its first set of wireless headphones. It’s obvious the company knows how to produce clear, balanced audio, even if the P100 could use a smidge more low-end tone. The combination of design, sound, repairability and battery life make this a compelling option at well under $300. And now that the company has a solid foundation to build on, I expect to be blown away by whatever comes next.

This article originally appeared on Engadget at https://www.engadget.com/audio/headphones/cambridge-audio-melomania-p100-review-an-impressive-headphone-debut-192412530.html?src=rss

Despite Intel’s recent woes, I didn’t expect to see CEO Pat Gelsinger joining 15,000 or so of his colleagues being shown the door. Gelsinger is a storied engineer and business success who laid down an exhaustive rescue plan when he took the helm of the beleaguered chipmaker in 2021. It was never going to be a quick fix, given the company’s long legacy of missteps. Gelsinger may be the public face of Intel’s current malaise, but the problems started long before his tenure and will likely keep going.

How Intel got here

Gelsinger was tasked with addressing almost two decades’ worth of bad decisions, all of which have compounded. Intel became an industry-swallowing behemoth as one half of the Wintel alliance, producing chips that went hand-in-glove with Microsoft Windows. The vast profits that flowed from this partnership meant there was an institutional reluctance to look too hard at new business ventures that could distract from its golden goose, still going strong all these years later.

In 2005, then-CEO Paul Ottellini turned down the chance to make the iPhone’s system-on-chip. It would have been easy for Intel, since it already made XScale ARM chips for mobile devices. You could find an Intel ARM chip inside popular phones like the BlackBerry Pearl 8100 and Palm Treo 650. A year later, it would sell XScale to Marvell, believing it would be able to shrink its x86 chips to work on smartphones. The first Intel Atom handsets showed some degree of promise, but the Snapdragons of the day — produced by considerably smaller rival Qualcomm — beat them pretty easily.

At the same time, Intel was working on Larrabee, its own discrete GPU platform based on the x86 architecture. Despite several years of marketing bravado and suggestions it would “kill” AMD/ATI and NVIDIA, Intel axed it in 2010 in favor of bundling integrated graphics into its regular processor products. The decision would hand the bulk of the GPU market to NVIDIA, making it the go-to name for gaming, supercomputers, crypto and AI, posting quarterly revenues of $35.1 billion on November 20.

Could Intel have foreseen the meteoric rise of AI? Maybe not. But Reuters reported former Intel CEO Bob Swan turned down the chance to invest in OpenAI in 2017. It was looking for a hardware partner to reduce its reliance on NVIDIA, offering a generous deal in the process. Swan, however, reportedly said he couldn’t see a future for generative AI, and Intel’s data center unit refused to sell the hardware at a discount.

Intel’s core strength was in the quality of its engineering, the solidity of its product and that it always kept close to the cutting edge. (There are parallels to be drawn between Intel and Boeing, both of which are watching their reputation for quality erode in real time.) Sadly Intel’s bread-and-butter business hit the skids after the company failed to produce 10-nanometer chips by its planned 2015 deadline. The company’s famous “tick, tock” strategy of launching a new chip process one year and a refined version the next ground to a halt.

These issues enabled Intel’s competitors to step in and steal a march, harnessing more modern chip architectures. AMD, which held a little over 10 percent of the chip market for much of the 2010s, has seen its market share double in the last few years. The biggest beneficiary, of course, was TSMC, the Taiwanese chip factory that has become the envy of the world. Even if Intel controls the bulk of the x86 processor market, it’s TSMC that makes the chips for Apple, Qualcomm, NVIDIA and AMD, among others. Intel, meanwhile, was saddled with an older chip manufacturing process that it couldn’t use to catch up with its rivals.

The Gelsinger doctrine

Gelsinger was as close to an Intel “lifer” as you could imagine, joining the company at 18 and rising to the position of Chief Technology Officer by 2001. In 2009, he left Intel to become COO at EMC and held the position as CEO of VMWare for almost a decade. After taking the reins at Intel, he laid down a detailed plan to mastermind its glorious comeback.

Step one would be to separate Intel’s design and manufacturing business into two distinct entities. With one eye on US subsidies through the Biden administration’s CHIPS and Science Act, Gelsinger pledged to build two new chip factories harnessing the same EUV (Extreme Ultraviolet Lithography) technology used by TSMC.

Gelsinger was also determined to reestablish discipline in Intel’s chip business and get back to the “tick, tock” structure. Unfortunately, the production delays that had been building up since 2015 meant that Gelsinger’s target was just to get back to parity. In the interim, Intel would also get TSMC to manufacture some of its newest chips which, while costly, would help address any concerns the company was lagging even further behind.

Nobody had any doubts as to the size of the task facing Gelsinger, but there was plenty of room for optimism. Gelsinger was humble enough to accept Intel couldn’t simply stay on its current course, and had to embrace its new status. He proposed Intel could grin and bear the short-term pain for the company’s eventual benefit. If it could build for the future, harness its rivals to keep it in the game and restore faith in its processes, Intel would emerge from this as the winner. All it needed was for nothing to get worse.

Things got worse

At the end of October, Reuters reported Gelsinger made a colossal faux-pas when speaking about TSMC. The CEO was quoted saying “You don’t want all of our eggs in the basket of a Taiwan fab,” and that “Taiwan is not a stable place.” This offended TSMC to such an extent that it ended a discount Intel had taken advantage of for years

Sadly, Gelsinger’s desire to restore discipline to the chip division would also backfire, with the latest Core processors blighted by voltage instability issues. Intel was forced to extend those chips’ warranties, which came at an additional cost it couldn’t really afford. In August, it posted a loss of $1.6 billion and pledged to cut 15,000 employees in an attempt to right the ship. But it was forced to post the biggest quarterly loss in its history three months later, losing $16.6 billion, albeit much of that tied to revaluing company assets and paying for the layoffs. Worse, Intel’s new production process, 18A, reportedly failed crucial tests ahead of its 2025 debut.

Perhaps the lowest point in Intel’s year was when its stock price fell low enough that it became a takeover target. Rumors suggested Qualcomm was potentially eyeing a takeover while others indicated ARM had made inquiries about purchasing Intel’s product unit.

Where does this leave Intel?

The New York Times reports Intel’s board grew frustrated with Gelsinger as his rescue plan was “not showing results quickly enough.” But Intel wasn’t going to hire Gelsinger in 2021 and suddenly bounce back in 2024. Building large and complex chip factories isn’t easy. Nor is getting thousands of engineers to solve difficult problems around chip yields. And obviously reversing a slide that started in 2015 was never going to happen overnight.

Intel’s board is presently looking for a full-time successor to Gelsinger but it’s hard to see what someone else would do differently. After all, the company still needs to build those factories in order to own and control its future, and it still needs to fix its processes. Unless, of course, the next CEO is going to be told to just stanch the bleeding and keep the money rolling in. Even in its deeply-wounded state after a few bad quarters, Intel is still the biggest name in the x86 chip world and will keep making money for years to come.

You could easily imagine Intel’s board sitting around, prioritizing a few years of healthy profits at the cost of the company’s long-term future. It can keep selling modified versions of its existing desktop chips, ceding the technological leadership to AMD, Qualcomm and others. There’s probably a decade or two of big industrial clients who would be happy using Intel processors for their hardware for as long as they’re still using Windows. Perhaps that would be fitting given how big and ossified Intel has become, admitting that it can’t move fast enough to evolve.

It’s likely that scenario won’t be allowed to happen given Intel’s broader role in the global tech space. Even if the incoming administration criticized the CHIPS Act — Intel is still set to be its largest funding recipient — having a domestic manufacturer of Intel’s scale will be an asset few sane governments would allow to fall. But just switching CEOs won’t suddenly fix the company’s big, hard-to-solve problems. It wasn’t Pat Gelsinger who screwed up power design for Raptor Lake, nor did he pass on the opportunity to make the iPhone CPU all those years ago. The TSMC stuff, he can own that, but while a CEO sets the direction of travel, he can’t micromanage every process in a company of Intel’s scale. So whoever replaces him will have the same big stack of issues to tackle, knowing that the board’s patience will be even shorter this time out.

This article originally appeared on Engadget at https://www.engadget.com/computing/firing-pat-gelsinger-doesnt-solve-intels-problems-173420381.html?src=rss

As of today, Chinese gallium, germanium and antimony are no longer being exported to the US. Germanium and gallium exports had already ceased in October, and antimony exports have dropped by 97 percent since September. This official declaration comes a day after the US announced it would further tighten technological exports to China, particularly referring to computer chips.

This ban includes materials that have “potential military applications,” as per Reuters.

The Chinese export ban primarily concerns what the government calls “dual-use items,” which are objects both the military and civilians can use. Due to this ban, graphite exports to the US from China must also undergo stricter reviews. However, they aren’t outright banned from exporting yet.

Gallium and germanium are used to make semiconductors, and the latter can also be found in fiber optic cables and solar cells. As for antimony, you may find it in shotgun shells, nuclear weapons, night vision goggles and some batteries.

These export bans are significant because China has been outputting 48 percent of globally mined antimony, 59.2 percent of refined germanium and 98.8 percent of refined gallium production. The US must now scramble to locate new deposits containing these materials, as the ban has already affected prices. Antimony trioxide has been 228 percent more expensive since the beginning of this year.

China has been finding ways to be technologically independent since the US banned exports to the Central Nation. The result of such efforts include HarmonyOS, Huawei’s chips being used in AI development and the Beidou Navigation Satellite System.

This article originally appeared on Engadget at https://www.engadget.com/computing/china-has-banned-certain-metal-exports-in-retaliation-to-the-us-chip-restrictions-144005531.html?src=rss