Search results for: “Clock”

  • Apple’s Latest Updates: macOS Tahoe, iOS 26, and China subsidy program

    Apple’s Latest Updates: macOS Tahoe, iOS 26, and China subsidy program

    Apple recently rolled out exciting updates for its users. The second beta of macOS Tahoe, released on June 24, 2025, now lets developers test AirPods firmware updates directly on a Mac. To try it, connect your AirPods, go to System Settings, click Bluetooth, select your AirPods, and toggle on beta updates.

    This feature, already available on iPhone and iPad with iOS 26 and iPadOS 26, will open to public beta testers in July, making it easier to explore new AirPods features like better call audio and studio-quality recording. Meanwhile, iOS 26’s beta introduces a fresh Clock app design with a bigger time display and larger Stop and Snooze buttons.

    However, this redesign might make it easier to accidentally tap Stop instead of Snooze when you’re groggy, going against earlier Apple research that favored different-sized buttons to avoid mistakes. Users can now customize snooze times from 1 to 15 minutes, a handy tweak from the fixed nine-minute snooze.

    In other news, Apple has joined China’s subsidy program to boost iPhone sales. By offering discounts through platforms like JD.com and Tmall, Apple aims to compete better in the world’s largest smartphone market, where local brands like Huawei are strong. This move follows a 40% sales drop in early 2025, showing Apple’s push to stay competitive with price cuts and trade-in offers.
    These updates show Apple’s focus on improving user experience and staying competitive globally.

  • Apple brings useful updates to iPhone, Apple Watch, and Safari

    Apple brings useful updates to iPhone, Apple Watch, and Safari

    Apple has just announced several helpful updates for iPhone, Apple Watch, and the Safari browser.

    Third-party alarm apps now work better on iphone

    With iOS 26, Apple is letting other alarm apps work just like the built-in Clock app. This means you can set alarms using your favorite alarm app, and it will show up on your lock screen and play alarm sounds even if your phone is locked. This gives users more choice and flexibility for waking up or setting reminders.

    Shortcuts app gets smarter

    The Shortcuts app on iOS 26 is getting new features. Now, you can create shortcuts that control more parts of your iPhone, like setting alarms or changing settings. This makes it easier to automate daily tasks and personalize your phone experience.

    Wallet app finally fixes a long-time issue

    The Wallet app is also getting an important update. Now, you can easily sort and organize your cards, tickets, and passes. This small but important change makes it much simpler to find what you need, especially if you have many items in your Wallet.

    Apple Watch adds a new gesture

    For Apple Watch users, watchOS 26 brings a new “wrist flick” gesture. With a quick flick of your wrist, you can perform actions without touching the screen. This feature is available on the latest Apple Watch models and helps make the watch even easier to use, especially when your hands are busy.

    Safari technology preview gets improvements

    Apple has also updated the Safari Technology Preview browser, making it faster and more reliable. This browser lets users try out new web features before they are released to everyone.

    These updates show that Apple is focusing on making its devices more useful and user-friendly for everyone.

  • Apple explores new iPhone features in iOS 18.5 beta

    Apple explores new iPhone features in iOS 18.5 beta

    Apple is working on exciting updates for the iPhone, spotted in the iOS 18.5 beta. These changes aim to make multitasking and video editing easier and more fun for users.
    One big feature is Stage Manager for iPhone.

    This tool, already popular on iPads and Macs, lets users organize apps in resizable windows. You could drag windows anywhere, even partly off-screen, and adjust their size without messing up other apps. While it’s being tested with external display support, experts think Apple might not release it widely yet.

    Another cool addition is Photographic Styles for videos. Right now, this feature lets you tweak photo colors and lighting in the Camera app. Soon, you might apply these styles to videos, giving them a unique look. Apple also plans to let third-party apps use Photographic Styles, opening up more creative options.

    Other tweaks include better Stage Manager controls, like smoother window resizing. There’s also a feature called “SuperDomino” that could show square clock widgets in StandBy mode, possibly for a rumored “HomePad” device.

  • Apple’s iOS 19: A fresh look is coming, here’s what we know

    Apple’s iOS 19: A fresh look is coming, here’s what we know

    Apple seems to be cooking up something big for iOS 19, possibly the largest update since iOS 7 hit back in 2013. While the company hasn’t spilled all the details yet, little hints have been popping up in their recent work. By peeking at new iPhone apps and designs, we can guess what’s in store for iOS 19. Let’s break it down.

    New Apps Drop Big Hints

    It’s been over a decade since Apple gave iOS a major makeover with iOS 7. Since then, changes have been small and steady, keeping the system familiar. But five recent apps—and one huge redesign—offer some exciting clues about iOS 19.

    Here’s the lineup of Apple’s latest apps built from scratch:

    • Journal
    • Apple Sports
    • Image Playground
    • Apple Invites
    • Apple Vision Pro (coming in iOS 18.4)

    These apps look different from each other, but they share some key features that point to iOS 19’s direction. One big clue? They’re ditching the classic iPhone tab bar.

    Goodbye, Tab Bars

    For years, tab bars have been a staple of iPhone apps, sitting at the bottom of the screen—like in the original Phone and Clock apps. They’re still around today, mostly unchanged. But Apple’s moving away from them. New apps like Journal, Sports, and Invites hide navigation in menus near the top instead of using tab bars. Even older apps, like Photos, got a makeover last year, swapping the tab bar for a smooth, single-page layout.

    What does this mean for iOS 19? Expect more apps to drop tab bars and switch to a simpler, one-page style. Apps like Music, App Store, Health, and News still use tab bars now, but iOS 19 might freshen them up with this new look.

    More Design Clues

    There’s more to spot in Apple’s recent apps. Parker Ortolani, a design expert, noticed that apps like Apple Sports and Invites feel different—almost like they belong on visionOS or watchOS. They’ve got bright backgrounds, glassy buttons, and bold, layered shapes. Apple Invites adds big cards and a focus on content. These touches hint at a lively, modern vibe for iOS 19. Reports say iOS 19 will borrow ideas from visionOS, and these app designs—think floating elements and colorful layers—back that up. It’s looking like a bold, fresh update is on the way!

  • How quick is Apple’s first 5G Modem? the answers might surprise you

    How quick is Apple’s first 5G Modem? the answers might surprise you

    The iPhone 16e reviews are out, and Apple’s new C1 modem is stealing the spotlight. People thought it might lag behind Qualcomm modems, but the early results tell a different story—its speed is holding up pretty well! The C1 modem skips the super-fast mmWave 5G used in the U.S., but it still matches the 5G performance of Qualcomm’s Snapdragon X71 modem, which powers the iPhone 16, iPhone 16 Plus, iPhone 16 Pro, and iPhone 16 Pro Max. Here’s what some tech reviewers found.

    Allison Johnson from The Verge said she barely noticed a difference between the C1 and X71. She tested the iPhone 16e for FaceTime calls, uploading big video files in busy spots, and streaming YouTube on a bus. She compared it to a regular iPhone 16 with a Qualcomm modem on Verizon, and both worked about the same.

    John Velasco from Tom’s Guide agreed. He tested the iPhone 16e and iPhone 16 in New York City and found no big speed gaps. Only one test showed the 16e pulling ahead slightly. What about hard numbers? Andru Edwards, in a video review, clocked the iPhone 16e at 673 Mbps download speed in his suburban New York yard on AT&T. The iPhone 16 Pro Max hit 667 Mbps in the same spot—pretty close! In busy New York City, the 16e reached 127 Mbps, beating the Pro Max’s 75 Mbps, though the Pro Max uploaded faster (50 Mbps vs. 30 Mbps).

    YouTuber Dave Lee from Dave2D tested in Toronto on the Bell network. His iPhone 16e was 30-40 Mbps faster than the iPhone 16 Pro Max. Meanwhile, the Chinese channel Geekerwan ran lab tests with an artificial 5G network. The iPhone 16e matched the iPhone 16 and other phones in speed and reliability.

    Apple claims the C1 is their most energy-saving modem yet—up to 25% more efficient than Qualcomm’s. Geekerwan’s tests back this up, showing the 16e using 0.67W compared to 0.88W for the iPhone 16. Overall, the C1 modem surprises everyone by keeping up with the best, while sipping less power, in both real life and lab settings.

  • How the Apple Watch helps NHL referees

    How the Apple Watch helps NHL referees

    The Apple Watch is making a big difference for referees in NHL hockey games. A special app called NHL Watch Comms was created just for NHL officials who work on the ice. This app will get its first outdoor test at tomorrow’s Stadium Series game in Ohio.

    The NHL announced this exciting update in a blog post recently. They said:

    For the first time in an outdoor match, referees will use the NHL Watch Comms App on their Apple Watches. This app, built by Presidio, sends live updates during the game to help officials stay on top of everything happening. Referees will feel small taps on their wrists to alert them about important moments, like how much time is left on the game clock, penalty timers, and even the jersey numbers of players sitting in the penalty box.

    This handy tool has been tested and improved over the past few seasons at indoor rinks. Now, it’s ready for its outdoor debut this Saturday. That’s when the Columbus Blue Jackets take on the Detroit Red Wings at Ohio Stadium, a famous football spot tied to The Ohio State University. Hockey games are loud and fast, which makes it tricky for referees to talk to each other. An outdoor game adds even more challenges, like wind or weather. That’s where the Apple Watch steps in to help.

    The app uses those wrist taps to keep referees in sync with the game clock—kind of like how fans might follow a live sports update on their own Apple Watches. But for refs, it’s all about doing their job better. Pretty neat, right?

    Here’s a peek at the NHL Watch Comms app, designed by Presidio for the NHL referees:

    This simple yet smart tool shows how tech can make a tough job a little easier, even in the middle of a thrilling hockey game.

  • The Surprising Persistence of the A17 Pro: Inside Apple’s chip strategy for the next iPad

    The Surprising Persistence of the A17 Pro: Inside Apple’s chip strategy for the next iPad

    Apple’s silicon strategy has always been a source of fascination and speculation for tech enthusiasts. Recent moves, however, have raised more than a few eyebrows. While the industry largely expected Apple to swiftly move on from its first-generation 3nm process, the A17 Pro chip, it appears this powerful processor is finding a new home in the upcoming entry-level iPad. This unexpected decision offers a fascinating glimpse into Apple’s current approach to chip utilization and its implications for the future of its product lines.

    For a while, the narrative surrounding the A17 Pro and the N3B process, the first generation 3nm manufacturing technology it utilized, was one of struggle. Reports suggested that the process was proving costly, yielding fewer chips than anticipated, and offering less of a performance leap compared to previous generations than Apple had hoped. This led many to believe that Apple would be eager to abandon this process as quickly as possible. This belief was seemingly reinforced by the rapid introduction of the M4 chip in the iPad Pro just months after the M3 debuted in Macs.

    Apple’s history of using older-generation chips in its lower-end iPhones further fueled this assumption. The iPhone 14, for example, retained the A15 Bionic chip from the iPhone 13, while the Pro models received the newer A16. However, this pattern was disrupted with the iPhone 16 lineup, where all models featured the A18 chip, bypassing the A17 altogether. This seemed to be the final nail in the coffin for the A17 and the N3B process.  

    Then came the surprise: the 7th generation iPad mini. This compact tablet, boasting Apple Intelligence capabilities, was powered by the A17 Pro, the very chip many expected to be phased out. While this move seemed justifiable for a lower-volume product like the iPad mini, it still raised questions about Apple’s long-term plans.  

    Now, according to reliable sources, Apple is set to double down on the A17 Pro by incorporating it into the next generation of its standard 11-inch iPad. This decision is significant for several reasons. Firstly, it indicates that Apple is finding ways to effectively utilize the A17 Pro, potentially through binning – a process of selecting chips that meet specific performance criteria, even if they don’t achieve the highest possible clock speeds or core counts. This would allow Apple to maximize the value of its existing A17 Pro inventory.

    Secondly, the inclusion of the A17 Pro in the entry-level iPad underscores Apple’s commitment to bringing Apple Intelligence features to a wider audience. The A17 Pro’s processing power is crucial for enabling these advanced AI functionalities, suggesting that Apple views them as a key differentiator for its devices moving forward. Reports also suggest a memory upgrade to 8GB for the new iPads, the minimum required for optimal Apple Intelligence performance.

    This move also challenges the conventional wisdom of reserving the latest and greatest chips for premium devices. By equipping the entry-level iPad with a powerful processor like the A17 Pro, Apple is blurring the lines between its product tiers and offering users a more compelling experience at a lower price point.

    Apple will likely use a binned version of the A17 Pro in the iPad 11, similar to the 5-core GPU configuration seen in the iPad mini 7. This allows them to effectively manage chip production and allocate resources appropriately.

    As always, rumors suggest that Apple is planning to unveil this new iPad model in the spring, potentially alongside new iPad Airs, a new iPhone SE, and updated Magic Keyboards. The continued presence of the A17 Pro, however, adds a fascinating new layer to the narrative, showcasing Apple’s evolving approach to chip strategy and product development. It seems that even when we think we have Apple figured out, they still have a few surprises up their sleeve.

  • The Future of Apple Silicon: Rethinking the chip design

    The Future of Apple Silicon: Rethinking the chip design

    For years, Apple has championed the System-on-a-Chip (SoC) design for its processors, a strategy that has delivered impressive performance and power efficiency in iPhones, iPads, and Macs. This design, which integrates the CPU, GPU, and other components onto a single die, has been a cornerstone of Apple’s hardware advantage.

    However, whispers from industry insiders suggest a potential shift in this approach, particularly for the high-performance M-series chips destined for professional-grade Macs. Could we be seeing a move towards a more modular design, especially for the M5 Pro and its higher-end counterparts?

    The traditional computing landscape involved discrete components – a separate CPU, a dedicated GPU, and individual memory modules, all residing on a motherboard. Apple’s SoC approach revolutionized this, packing everything onto a single chip, leading to smaller, more power-efficient devices.

    This integration minimizes communication latency between components, boosting overall performance. The A-series chips in iPhones and the M-series chips in Macs have been prime examples of this philosophy. These chips, like the A17 Pro and the M3, are often touted as single, unified units, even if they contain distinct processing cores within their architecture.

    But the relentless pursuit of performance and the increasing complexity of modern processors might be pushing the boundaries of the traditional SoC design. Recent speculation points towards a potential change in strategy for the M5 Pro, Max, and Ultra chips.

    These rumors suggest that Apple might be exploring a more modular approach, potentially separating the CPU and GPU onto distinct dies within the same package. This wouldn’t be a return to the old days of separate circuit boards, but rather a sophisticated form of chip packaging that allows for greater flexibility and scalability.

    One key factor driving this potential change is the advancement in chip packaging technology. Techniques like TSMC’s SoIC-mH (System-on-Integrated-Chips-Molding-Horizontal) offer the ability to combine multiple dies within a single package with exceptional thermal performance.

    This means that the CPU and GPU, even if physically separate, can operate at higher clock speeds for longer durations without overheating. This improved thermal management is crucial for demanding workloads like video editing, 3D rendering, and machine learning, which are the bread and butter of professional Mac users.

    Furthermore, this modular approach could offer significant advantages in terms of manufacturing yields. By separating the CPU and GPU, Apple can potentially reduce the impact of defects on overall production. If a flaw is found in the CPU die, for instance, the GPU die can still be salvaged, leading to less waste and improved production efficiency. This is particularly important for complex, high-performance chips where manufacturing yields can be a significant challenge.

    This potential shift also aligns with broader trends in the semiconductor industry. The increasing complexity of chip design is making it more difficult and expensive to cram everything onto a single die. By adopting a more modular approach, chipmakers can leverage specialized manufacturing processes for different components, optimizing performance and cost.

    Interestingly, there have also been whispers about similar changes potentially coming to the A-series chips in future iPhones, with rumors suggesting a possible separation of RAM from the main processor die. This suggests that Apple might be exploring a broader shift towards a more modular chip architecture across its entire product line.

    Beyond the performance gains for individual devices, this modular approach could also have implications for Apple’s server infrastructure. Rumors suggest that the M5 Pro chips could play a crucial role in powering Apple’s “Private Cloud Compute” (PCC) servers, which are expected to handle computationally intensive tasks related to AI and machine learning. The improved thermal performance and scalability offered by the modular design would be particularly beneficial in a server environment.

    While these are still largely speculative, the potential shift towards a more modular design for Apple Silicon marks an exciting development in the evolution of chip technology. It represents a potential departure from the traditional SoC model, driven by the need for increased performance, improved manufacturing efficiency, and the growing demands of modern computing workloads. If these rumors prove true, the future of Apple Silicon could be one of greater flexibility, scalability, and performance, paving the way for even more powerful and capable Macs.

    Source