Why should I Use Android 12 as a Game/App Developer?

Why should I Use Android 12 as a Game/App Developer?

As Android developers, we’re all motivated by the desire to create amazing experiences for people all over the world.

And, with more users relying on your apps than ever before, expectations are higher than ever, and your work as a developer isn’t getting any simpler.

One of the most significant design upgrades in Android history is Android 12.

The first Android 12 Beta has just begun to roll out, and it’s jam-packed with features.

This update is one of the biggest design upgrades to Android ever, with new account security features like authorizations for Bluetooth and accurately estimate location, performance improvements like accelerated business and making up animations, and delightful experiences like more engaging widgets and stretch over scrolling.

Google I/O recently announced the first Beta of Android 12, one of its most significant releases to date.

Concentration was on creating a new user interface that responds to you, improves performance, and prioritizes privacy and security.

According to the company, they are providing developers with new tools to create pleasant experiences for users on phones, computers, tablets, wearables, televisions, and automobiles.

There’s a lot to discover in Beta 1, beginning with the most substantial UI upgrade to Android yet, designed with the Material You design language.

There are also new privacy features to try, such as approximate location and the Performance Class standard, which allows apps and users to identify high-performing devices.

Other smartphones, including those from ASUS, OnePlus, Oppo, Realme, Sharp, TCL, Transsion, Vivo, Xiaomi, and ZTE, are now receiving the Beta, with more on the way.

Android 12 features the most significant design overhaul in Android’s history. From the colors to the forms, light, and motion, we reevaluated the entire experience to make Android 12 more creative, vibrant, and unique.

Google I/O is integrating its software and hardware platforms under a single model language called Material You, and this work is being done in close collaboration across the software, hardware, and Material Design teams.

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The new design language has been extended across the system and UI features, so your apps will immediately receive these updates.

App widgets have been updated to make them more helpful, appealing, and discoverable, in line with the design improvements in Android 12.

It is easier to personalize widgets by adding additional interactive features like checkboxes, switches, and radio buttons. With rounded sides and padding automatically matched to each launcher and home screen.

Android 12 widgets blend in beautifully with system UI and customizations. Widgets may be adapted to phones, tablets, and other screens using responsive layouts.

Dynamic color APIs have also been included, allowing your widgets to utilize system colors to develop a unique but consistent design.

A new system-wide “stretch” overscroll effect is also being added to let users know when they’ve browsed past the end of the accessible material in your UI.

The stretch effect is installed by default for scrolling containers across the system and AndroidX, and it delivers a natural vertical and horizontal scroll-stop indicator that is common across all apps.

The glow overscroll that was enabled in previous versions has been replaced by the new stretch over a scroll.

Audio transitions are smoother – It’s not only about the appearance of the user interface. The way the audio focus is managed has also been improved. When an app loses audio attention, the audio fades out automatically, allowing for a seamless transition between apps.

With Android 12, you can make huge and deep improvements in performance, from the basic performance to a new baseline for high-performing devices that enables developers to provide growth and expansion on those devices.

There is also a smoother, more optimal network performance.

The CPU time required for essential system services was cut by 22%, resulting in faster and more reactive devices.

It also enhanced Android’s power productivity by minimizing the system server’s use of large cores by 15%, allowing devices to function for longer periods before needing to be charged.

CursorWindow has been optimized indirectly by affecting results in Binder operations to increase database query efficiency.

CursorWindow improves performance by 36% for small windows and by 80% for windows with more than 1000 rows.

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