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The supply chain attack involving the GitHub Action "tj-actions/changed-files" started as a highly-targeted attack against one of Coinbase's open-source projects, before evolving into something more widespread in scope. "The payload was focused on exploiting the public CI/CD flow of one of their open source projects – agentkit, probably with the purpose of leveraging it for further compromises,"Ravie Lakshmananhttp://www.blogger.com/profile/[email protected]

Cybercriminals are abusing Microsoft's Trusted Signing platform to code-sign malware executables with short-lived three-day certificates. [...]

The U.S. Treasury Department has announced that it's removing sanctions against Tornado Cash, a cryptocurrency mixer service that has been accused of aiding the North Korea-linked Lazarus Group to launder their ill-gotten proceeds. "Based on the Administration's review of the novel legal and policy issues raised by use of financial sanctions against financial and commercial activity occurring

The U.S. Treasury Department has announced that it's removing sanctions against Tornado Cash, a cryptocurrency mixer service that has been accused of aiding the North Korea-linked Lazarus Group to launder their ill-gotten proceeds. "Based on the Administration's review of the novel legal and policy issues raised by use of financial sanctions against financial and commercial activity occurring Ravie Lakshmananhttp://www.blogger.com/profile/[email protected]

Researchers have determined that Coinbase was the primary target in a recent GitHub Actions cascading supply chain attack that compromised secrets in hundreds of repositories. [...]

Oracle denies it was breached after a threat actor claimed to be selling 6 million data records allegedly stolen from the company's Oracle Cloud federated SSO login servers [...]

Researchers at the University of Cambridge, together with the Alan Turing Institute, Microsoft Research, and the European Center for Medium Range Weather Forecasts, have developed a new AI-based weather forecasting system — Aardvark Weather — that could revolutionize the field of meteorology.

Aardvark Weather can apparently provide weather forecasts that are tens of times more accurate, while requiring dramatically less computing power than modern systems. “Aardvark is thousands of times faster than all previous methods of weather forecasting,” Professor Richard Turner of Cambridge’s Department of Engineering, who led the research, said in a statement.

The AI system achieved this by replacing the entire process of weather forecasting with a single machine-learning model; it can take in observations from satellites, weather stations and other sensors and then generate both global and local forecasts.

In the past, a forecast required several different models, each of which relies on a supercomputer and a support team to run. With Aardvark Weather, the same work can be completed in just a few minutes and with a standard desktop computer.

The results were published in the journal Nature.

A new phishing campaign is targeting SEO professionals with malicious Semrush Google Ads that aim to steal their Google account credentials. [...]

Microsoft is investigating an Exchange Online bug causing anti-spam systems to mistakenly quarantine some users' emails. [...]

We’re now in the century sci-fi writers made their fortunes writing about — and hardware manufacturers seem keen to explore new products and processes that make some of those predictions a reality. Just as Minority Report comes pretty close to predicting visionOS and Spatial Computing, so too will a whisper of Ringworld be reflected in the hard but soft metal substance Apple might use in future devices, principally the folding iPhone.

Liquid Metal has been around in the Apple-verse for a long time. It’s a zirconium- and titanium-based alloy stronger than steel and more flexible than aluminium; the company has licensed it since around 2010 for use as the SIM card removal tool that looks like it wants to be a paper clip and once found in the box with iPhones. While it doesn’t share all the same qualities as Larry Niven’s “Unobtanium” used to make the Ringworld space station, it does at least deliver resilience and flexibility and it’s the latter that matters according to Apple analyst, Ming-Chi Kuo.

He says Apple will use liquid metal to make the foldable hinge in the so-far-unannounced or confirmed folding iPhone it hopes to introduce next year. 

Pour me another

Kuo explains that Apple wants to use the substance to build a folding device that is flatter and more durable than existing devices of its type, as well as having a hardly discernible crease. Bloomberg’s Mark Gurman has previously told us that Apple really wants to build a fold mechanism that isn’t visible when unfolded and does not deteriorate in use.

To achieve this, key iPhone fold components including hinges will be crafted from liquid metal. The analyst predicts Android device makers will soon follow suit, which is good news for exclusive liquid metal supplier, Dongguan EonTec, the analyst said. Apple’s 21st-century take on a folding device is likely to be thin, like the iPhone 16e, and almost certainly built to the high-end design aesthetic Apple maintains across its product range. It will also have a high-end price to match, which implies this will be the device to slam ostentatiously on the table during board meetings. 

Et tu, Siri?

While the hardware seems to be coming into view, it’s clear that one essential component isn’t yet in place, and that’s Siri. Only two weeks ago, Kuo told us Apple wants to position the device as a true AI-driven iPhone, with the power of artificial intelligence artfully combined with the large display. The snag? Siri isn’t ready yet, which has made for big staffing changes within Apple’s Siri team. Reflecting the strategic importance of AI to Apple, CEO Tim Cook has put Apple’s best product designers in to sort Siri out, moving former Siri boss John Giannandrea aside to make way for genius engineer Mike Rockwell, who led Vision Pro development. (Giannandrea hasn’t left the company, incidentally, but seems to have been given a more limited sphere of responsibility and is no longer reporting directly to Cook, who has lost confidence in his ability to execute on product development.)

Apple’s Game Of Thrones is interesting, but what it truly represents is the importance the company attaches to Siri on iPhones — and not just iPhones. Apple has a number of additional products in the pipeline, including a home control device, some of which have allegedly also been delayed due to contextual Siri’s no-show. In that light, the fact that a folding iPhone is expected to become a poster child for AI on a mobile device depends on what the new Siri team can build.

No pressure, then.

What else do we know about the folding iPhone? In development intermittently since at least 2014, Apple’s hardware engineers now seem to feel the tech and the time is right for the device. Kuo tells us to expect a 7.8-in. display when unfolded and a 5.5-inch display at rest. You’ll have rear and front camera, eSIM, Apple’s C2 5G modem,  and Touch ID as a side button. The device should be as slim as 9mm when closed but isn’t expected to appear until next year’s main iPhone refresh cycle in late 2026. Final specifications will be set in stone later this year. Apple will likely follow this up by developing and optimizing the manufacturing process in preparation for mass production next year.

But a lot depends on getting those Siri improvements in place.

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The U.S. Department of Treasury announced today that it has removed sanctions against the Tornado Cash cryptocurrency mixer, which North Korean Lazarus hackers used to launder hundreds of millions stolen in multiple crypto heists. [...]

Threat hunters have uncovered a new threat actor named UAT-5918 that has been attacking critical infrastructure entities in Taiwan since at least 2023. "UAT-5918, a threat actor believed to be motivated by establishing long-term access for information theft, uses a combination of web shells and open-sourced tooling to conduct post-compromise activities to establish persistence in victim

Threat hunters have uncovered a new threat actor named UAT-5918 that has been attacking critical infrastructure entities in Taiwan since at least 2023. "UAT-5918, a threat actor believed to be motivated by establishing long-term access for information theft, uses a combination of web shells and open-sourced tooling to conduct post-compromise activities to establish persistence in victim Ravie Lakshmananhttp://www.blogger.com/profile/[email protected]

What a long, strange trip it’s been.

From its inaugural release to today, Android has transformed visually, conceptually and functionally — time and time again. Google’s mobile operating system may have started out scrappy, but holy moly, has it ever evolved.

Here’s a fast-paced tour of Android version highlights from the platform’s birth to present. (Feel free to skip ahead if you just want to see what’s new in the most recent Android 15 update and the still-under-development Android 16 beta release.)

[ Download our editors’ PDF Android business smartphones enterprise buyer’s guide today! ]

Android versions 1.0 to 1.1: The early days

Android made its official public debut in 2008 with Android 1.0 — a release so ancient it didn’t even have a cute codename.

Things were pretty basic back then, but the software did include a suite of early Google apps like Gmail, Maps, Calendar, and YouTube, all of which were integrated into the operating system — a stark contrast to the more easily updatable standalone-app model employed today.

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The Android 1.0 home screen and its rudimentary web browser (not yet called Chrome).

T-Mobile

Android version 1.5: Cupcake

With early 2009’s Android 1.5 Cupcake release, the tradition of Android version names was born. Cupcake introduced numerous refinements to the Android interface, including the first on-screen keyboard — something that’d be necessary as phones moved away from the once-ubiquitous physical keyboard model.

Cupcake also brought about the framework for third-party app widgets, which would quickly turn into one of Android’s most distinguishing elements, and it provided the platform’s first-ever option for video recording.

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Cupcake was all about the widgets.

Android Police Android version 1.6: Donut

Android 1.6, Donut, rolled into the world in the fall of 2009. Donut filled in some important holes in Android’s center, including the ability for the OS to operate on a variety of different screen sizes and resolutions — a factor that’d be critical in the years to come. It also added support for CDMA networks like Verizon, which would play a key role in Android’s imminent explosion.

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Android’s universal search box made its first appearance in Android 1.6.

Google

Android versions 2.0 to 2.1: Eclair

Keeping up the breakneck release pace of Android’s early years, Android 2.0, Eclair, emerged just six weeks after Donut; its “point-one” update, also called Eclair, came out a couple months later. Eclair was the first Android release to enter mainstream consciousness thanks to the original Motorola Droid phone and the massive Verizon-led marketing campaign surrounding it.

Verizon’s “iDon’t” ad for the Droid.

The release’s most transformative element was the addition of voice-guided turn-by-turn navigation and real-time traffic info — something previously unheard of (and still essentially unmatched) in the smartphone world. Navigation aside, Eclair brought live wallpapers to Android as well as the platform’s first speech-to-text function. And it made waves for injecting the once-iOS-exclusive pinch-to-zoom capability into Android — a move often seen as the spark that ignited Apple’s long-lasting “thermonuclear war” against Google.

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The first versions of turn-by-turn navigation and speech-to-text, in Eclair.

Google

Android version 2.2: Froyo

Just four months after Android 2.1 arrived, Google served up Android 2.2, Froyo, which revolved largely around under-the-hood performance improvements.

Froyo did deliver some important front-facing features, though, including the addition of the now-standard dock at the bottom of the home screen as well as the first incarnation of Voice Actions, which allowed you to perform basic functions like getting directions and making notes by tapping an icon and then speaking a command.

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Google’s first real attempt at voice control, in Froyo.

Google

Notably, Froyo also brought support for Flash to Android’s web browser — an option that was significant both because of the widespread use of Flash at the time and because of Apple’s adamant stance against supporting it on its own mobile devices. Apple would eventually win, of course, and Flash would become far less common. But back when it was still everywhere, being able to access the full web without any black holes was a genuine advantage only Android could offer.

Android version 2.3: Gingerbread

Android’s first true visual identity started coming into focus with 2010’s Gingerbread release. Bright green had long been the color of Android’s robot mascot, and with Gingerbread, it became an integral part of the operating system’s appearance. Black and green seeped all over the UI as Android started its slow march toward distinctive design.

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It was easy being green back in the Gingerbread days.

JR Raphael / IDG

Android 3.0 to 3.2: Honeycomb

2011’s Honeycomb period was a weird time for Android. Android 3.0 came into the world as a tablet-only release to accompany the launch of the Motorola Xoom, and through the subsequent 3.1 and 3.2 updates, it remained a tablet-exclusive (and closed-source) entity.

Under the guidance of newly arrived design chief Matias Duarte, Honeycomb introduced a dramatically reimagined UI for Android. It had a space-like “holographic” design that traded the platform’s trademark green for blue and placed an emphasis on making the most of a tablet’s screen space.

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Honeycomb: When Android got a case of the holographic blues.

JR Raphael / IDG

While the concept of a tablet-specific interface didn’t last long, many of Honeycomb’s ideas laid the groundwork for the Android we know today. The software was the first to use on-screen buttons for Android’s main navigational commands; it marked the beginning of the end for the permanent overflow-menu button; and it introduced the concept of a card-like UI with its take on the Recent Apps list.

Android version 4.0: Ice Cream Sandwich

With Honeycomb acting as the bridge from old to new, Ice Cream Sandwich — also released in 2011 — served as the platform’s official entry into the era of modern design. The release refined the visual concepts introduced with Honeycomb and reunited tablets and phones with a single, unified UI vision.

ICS dropped much of Honeycomb’s “holographic” appearance but kept its use of blue as a system-wide highlight. And it carried over core system elements like on-screen buttons and a card-like appearance for app-switching.

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The ICS home screen and app-switching interface.

JR Raphael / IDG

Android 4.0 also made swiping a more integral method of getting around the operating system, with the then-revolutionary-feeling ability to swipe away things like notifications and recent apps. And it started the slow process of bringing a standardized design framework — known as “Holo” — all throughout the OS and into Android’s app ecosystem.

Android versions 4.1 to 4.3: Jelly Bean

Spread across three impactful Android versions, 2012 and 2013’s Jelly Bean releases took ICS’s fresh foundation and made meaningful strides in fine-tuning and building upon it. The releases added plenty of poise and polish into the operating system and went a long way in making Android more inviting for the average user.

Visuals aside, Jelly Bean brought about our first taste of Google Now — the spectacular predictive-intelligence utility that’s sadly since devolved into a glorified news feed. It gave us expandable and interactive notifications, an expanded voice search system, and a more advanced system for displaying search results in general, with a focus on card-based results that attempted to answer questions directly.

Multiuser support also came into play, albeit on tablets only at this point, and an early version of Android’s Quick Settings panel made its first appearance. Jelly Bean ushered in a heavily hyped system for placing widgets on your lock screen, too — one that, like so many Android features over the years, quietly disappeared a couple years later.

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Jelly Bean’s Quick Settings panel and short-lived lock screen widget feature.

JR Raphael / IDG

Android version 4.4: KitKat

Late-2013’s KitKat release marked the end of Android’s dark era, as the blacks of Gingerbread and the blues of Honeycomb finally made their way out of the operating system. Lighter backgrounds and more neutral highlights took their places, with a transparent status bar and white icons giving the OS a more contemporary appearance.

Android 4.4 also saw the first version of “OK, Google” support — but in KitKat, the hands-free activation prompt worked only when your screen was already on and you were either at your home screen or inside the Google app.

The release was Google’s first foray into claiming a full panel of the home screen for its services, too — at least, for users of its own Nexus phones and those who chose to download its first-ever standalone launcher.

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The lightened KitKat home screen and its dedicated Google Now panel.

JR Raphael / IDG

Android versions 5.0 and 5.1: Lollipop

Google essentially reinvented Android — again — with its Android 5.0 Lollipop release in the fall of 2014. Lollipop launched the still-present-today Material Design standard, which brought a whole new look that extended across all of Android, its apps and even other Google products.

The card-based concept that had been scattered throughout Android became a core UI pattern — one that would guide the appearance of everything from notifications, which now showed up on the lock screen for at-a-glance access, to the Recent Apps list, which took on an unabashedly card-based appearance.

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Lollipop and the onset of Material Design.

JR Raphael / IDG

Lollipop introduced a slew of new features into Android, including truly hands-free voice control via the “OK, Google” command, support for multiple users on phones and a priority mode for better notification management. It changed so much, unfortunately, that it also introduced a bunch of troubling bugs, many of which wouldn’t be fully ironed out until the following year’s 5.1 release.

Android version 6.0: Marshmallow

In the grand scheme of things, 2015’s Marshmallow was a fairly minor Android release — one that seemed more like a 0.1-level update than anything deserving of a full number bump. But it started the trend of Google releasing one major Android version per year and that version always receiving its own whole number.

Marshmallow’s most attention-grabbing element was a screen-search feature called Now On Tap — something that, as I said at the time, had tons of potential that wasn’t fully tapped. Google never quite perfected the system and ended up quietly retiring its brand and moving it out of the forefront the following year.

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Marshmallow and the almost-brilliance of Google Now on Tap.

JR Raphael / IDG

Android 6.0 did introduce some stuff with lasting impact, though, including more granular app permissions, support for fingerprint readers, and support for USB-C.

Android versions 7.0 and 7.1: Nougat

Google’s 2016 Android Nougat releases provided Android with a native split-screen mode, a new bundled-by-app system for organizing notifications, and a Data Saver feature. Nougat added some smaller but still significant features, too, like an Alt-Tab-like shortcut for snapping between apps.

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Android 7.0 Nougat and its new native split-screen mode.

JR Raphael / IDG

Perhaps most pivotal among Nougat’s enhancements, however, was the launch of the Google Assistant — which came alongside the announcement of Google’s first fully self-made phone, the Pixel, about two months after Nougat’s debut. The Assistant would go on to become a critical component of Android and most other Google products and is arguably the company’s foremost effort today.

Android version 8.0 and 8.1: Oreo

Android Oreo added a variety of niceties to the platform, including a native picture-in-picture mode, a notification snoozing option, and notification channels that offer fine control over how apps can alert you.

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Oreo adds several significant features to the operating system, including a new picture-in-picture mode.

JR Raphael / IDG

The 2017 release also included some noteworthy elements that furthered Google’s goal of aligning Android and Chrome OS and improving the experience of using Android apps on Chromebooks, and it was the first Android version to feature Project Treble — an ambitious effort to create a modular base for Android’s code with the hope of making it easier for device-makers to provide timely software updates.

Android version 9: Pie

The freshly baked scent of Android Pie, a.k.a. Android 9, wafted into the Android ecosystem in August of 2018. Pie’s most transformative change was its hybrid gesture/button navigation system, which traded Android’s traditional Back, Home, and Overview keys for a large, multifunctional Home button and a small Back button that appeared alongside it as needed.

Android 9 introduced a new gesture-driven system for getting around phones, with an elongated Home button and a small Back button that appears as needed.

JR Raphael / IDG

Pie included some noteworthy productivity features, too, such as a universal suggested-reply system for messaging notifications, a new dashboard of Digital Wellbeing controls, and more intelligent systems for power and screen brightness management. And, of course, there was no shortage of smaller but still-significant advancements hidden throughout Pie’s filling, including a smarter way to handle Wi-Fi hotspots, a welcome twist to Android’s Battery Saver mode, and a variety of privacy and security enhancements.

Android version 10

Google released Android 10 — the first Android version to shed its letter and be known simply by a number, with no dessert-themed moniker attached — in September of 2019. Most noticeably, the software brought about a totally reimagined interface for Android gestures, this time doing away with the tappable Back button altogether and relying on a completely swipe-driven approach to system navigation.

Android 10 packed plenty of other quietly important improvements, including an updated permissions system with more granular control over location data along with a new system-wide dark theme, a new distraction-limiting Focus Mode, and a new on-demand live captioning system for any actively playing media.

Android 10’s new privacy permissions model adds some much-needed nuance into the realm of location data.

JR Raphael / IDG

Android version 11

Android 11, launched at the start of September 2020, was a pretty substantial Android update both under the hood and on the surface. The version’s most significant changes revolve around privacy: The update built upon the expanded permissions system introduced in Android 10 and added in the option to grant apps location, camera, and microphone permissions only on a limited, single-use basis.

Android 11 also made it more difficult for apps to request the ability to detect your location in the background, and it introduced a feature that automatically revokes permissions from any apps you haven’t opened lately. On the interface level, Android 11 included a refined approach to conversation-related notifications along with a new streamlined media player, a new Notification History section, a native screen-recording feature, and a system-level menu of connected-device controls.

Android 11’s new media player appears as part of the system Quick Settings panel, while the new connected-device control screen comes up whenever you press and hold your phone’s physical power button.

JR Raphael / IDG

Android version 12

Google officially launched the final version of Android 12 in October 2021, alongside the launch of its Pixel 6 and Pixel 6 Pro phones.

In a twist from the previous several Android versions, the most significant progressions with Android 12 were mostly on the surface. Android 12 featured the biggest reimagining of Android’s interface since 2014’s Android 5.0 (Lollipop) version, with an updated design standard known as Material You — which revolves around the idea of you customizing the appearance of your device with dynamically generated themes based on your current wallpaper colors. Those themes automatically change anytime your wallpaper changes, and they extend throughout the entire operating system interface and even into the interfaces of apps that support the standard.

Android 12 ushered in a whole new look and feel for the operating system, with an emphasis on simple color customization.

Google

Surface-level elements aside, Android 12 brought a (long overdue) renewed focus to Android’s widget system along with a host of important foundational enhancements in the areas of performance, security, and privacy. The update provided more powerful and accessible controls over how different apps are using your data and how much information you allow apps to access, for instance, and it included a new isolated section of the operating system that allows AI features to operate entirely on a device, without any potential for network access or data exposure.

Android version 13

Android 13, launched in August 2022, was simultaneously one of the most ambitious updates in Android history and one of the most subtle version changes to date.

On tablets and foldable phones, Android 13 introduced a slew of significant interface updates and additions aimed at improving the large-screen Android experience — including an enhanced split-screen mode for multitasking and a ChromeOS-like taskbar for easy app access from anywhere.

The new Android-13-introduced taskbar, as seen on a Google Pixel Fold phone.

Google

On regular phones, Android 13 brought about far less noticeable changes — mostly just some enhancements to the system clipboard interface, a new native QR code scanning function within the Android Quick Settings area, and a smattering of under-the-hood improvements.

Android version 14

Following a full eight months of out-in-the-open refinement, Google’s 14th Android version landed at the start of October 2023 in the midst of the company’s Pixel 8 and Pixel 8 Pro launch event.

Like the version before it, Android 14 doesn’t look like much on the surface. That’s in part because of the trend of Google moving more and more toward a development cycle that revolves around smaller ongoing updates to individual system-level elements year-round — something that’s actually a significant advantage for Android users, even if it does have an awkward effect on people’s perception of progress.

But despite the subtle nature of its first impression, Android 14 includes a fair amount of noteworthy new stuff. The software introduces a new system for dragging and dropping text between apps, for instance, as well as a new series of native customization options for the Android lock screen.

Android 14 includes options for completely changing the appearance of the lock screen as well as for customizing which shortcuts show up on it.

JR Raphael / IDG

Android 14 provides a number of new improvements to privacy and security, too, including a new settings-integrated dashboard for managing all your health and fitness data and controlling which apps and devices can access it. And it adds in a more info-rich and context-requiring system for seeing exactly why apps want access to your location when they request such a permission.

Beyond that, Android 14 features a first taste of Google’s AI-generated custom wallpaper creator, though that’s available only on the Pixel 8 and Pixel 8 Pro to start.

You can generate all sorts of interesting wallpapers in seconds via Android 14’s AI generator feature — but only on the Pixel 8 or Pixel 8 Pro for now.

JR Raphael / IDG

The software also sports a series of significant accessibility additions, such as an enhanced on-demand magnifier, an easier way to increase font size in any app, improved support for hearing aid connections, and a built-in option to have your phone flash its camera light anytime a new notification arrives.

Android version 15

Google technically released Android 15 in September 2024, but in an unusual twist, that was only the launch of the software’s raw source code. The new Android version didn’t show up even on the company’s own Pixel devices until just over a month later, in mid-October.

With Google increasingly offering Android enhancements outside of the formal operating system context, some of the more interesting updates in recent months are not connected directly to Android 15 itself. For instance, the Android Circle to Search system and new theft protection features have shown up throughout 2024 for devices running even older Android versions.

As for Android 15 itself, though, the update introduces a number of noteworthy new features — including a system-level Private Space option that lets you keep sensitive apps out of sight and accessible only with authentication. The software also further enhances the multitasking systems introduced in Android 13 with the new option to keep the large-screen-exclusive Android taskbar present at all times and the new ability to launch specific pairs of apps together into a side-by-side split-screen with a single tap.

Once you set up Android 15’s new Private Space feature, certain apps appear in a special protected — and optionally hidden — area of your app drawer.

JR Raphael / IDG

Beyond that, Android 15 includes a redesigned system volume panel, a new option to automatically reenable a device’s Bluetooth radio a day after it’s been disabled, and a Pixel-specific Adaptive Vibration feature that intelligently adjusts a phone’s vibration intensity based on the environment.

Adaptive Vibration and a redesigned volume panel provide welcome upgrades to the Android audio experience.

JR Raphael / IDG

Add in a new charging-time connected-device-control screen saver, a space-saving app archiving option for infrequently used apps, and a long-under-development predictive back visual that lets you see a peek at where you’re headed before you get there — and this small-seeming update is actually shaping up to be a pretty hefty update progression.

Android version 16 (beta)

In a major change from recent Android upgrade cycles, Google decided to go with two new Android versions per year as of 2025 — starting with the spring’s Android 16 update and then following with another release later in the fall. (It’s not entirely clear yet if the second annual update will get its own full number or act as an extension of the Android 16 moniker, but Google says it’ll be a “major” release.)

True to that promise, the first Android 16 beta arrived in late January, and Google’s slowly but surely been following it up with additional updates that pave the way for its final public rollout sometime in the second quarter.

So far, the most significant features in Android 16 are shaping up to be Live Updates — a new type of notifications designed to support persistent, ongoing alerts, similar to what Apple does with iOS’s Live Activities — along with a variety of enhancements to Android’s Quick Settings interface. We’re also seeing early signs of development around a series of changes seemingly aimed at making Android a more capable desktop operating system (hmm…) along with the beginnings of a new native system for notification summaries (something you can actually accomplish this instant, incidentally, with the right type of creative thinking).

Android 16 also has the usual array of under-the-hood improvements around performance, privacy, security, and the all-around Android-device-using experience. For instance, the latest Android 16 beta includes support for a more advanced standard of hearing aid support as well as stronger network security protection and more stringent guidelines around how apps adapt to larger-screen environments.

Android 16 requires apps to adapt more intelligently to large-screen settings (as seen at right) as opposed to just maintaining an awkwardly narrow phone-like form (as seen at left).

Google

The final Android 16 rollout is expected to begin sometime in April or May — which would line up with the timing of this year’s Google I/O conference, perhaps not coincidentally — though with the way device-makers have been flailing with Android update deliveries lately, it’s anyone’s guess as to how long it’ll take for the software to reach devices outside of Google’s own Pixel products.

This article was originally published in November 2017 and most recently updated in March 2025.

Valve has removed a game titled 'Sniper: Phantom's Resolution' from the Steam store following multiple user reports that indicated its demo installer actually infected their systems with information stealing malware. [...]

The threat actors behind the Medusa ransomware-as-a-service (RaaS) operation have been observed using a malicious driver dubbed ABYSSWORKER as part of a bring your own vulnerable driver (BYOVD) attack designed to disable anti-malware tools. Elastic Security Labs said it observed a Medusa ransomware attack that delivered the encryptor by means of a loader packed using a packer-as-a-service (PaaS

The threat actors behind the Medusa ransomware-as-a-service (RaaS) operation have been observed using a malicious driver dubbed ABYSSWORKER as part of a bring your own vulnerable driver (BYOVD) attack designed to disable anti-malware tools. Elastic Security Labs said it observed a Medusa ransomware attack that delivered the encryptor by means of a loader packed using a packer-as-a-service (PaaSRavie Lakshmananhttp://www.blogger.com/profile/[email protected]

In a strategic move that could reshape the future of computing, Nvidia is establishing the Nvidia Accelerated Quantum Research Center (NVAQC) in Boston, where the worlds of quantum hardware and AI supercomputing will converge to tackle what many consider computing’s final frontier.

The initiative represents one of the most significant corporate investments in quantum computing to date, potentially accelerating the timeline to practical, real-world quantum applications.

The China-linked advanced persistent threat (APT) group known as Aquatic Panda has been linked to a "global espionage campaign" that took place in 2022 targeting seven organizations. These entities include governments, catholic charities, non-governmental organizations (NGOs), and think tanks across Taiwan, Hungary, Turkey, Thailand, France, and the United States. The activity, which took place

After conducting over 10,000 automated internal network penetration tests last year, vPenTest has uncovered a troubling reality that many businesses still have critical security gaps that attackers can easily exploit. Organizations often assume that firewalls, endpoint protection, and SIEMs are enough to keep them secure. But how effective are these defenses when put to the test? That’s where