![]() This process not only conserves CPU usage, but also reduces the transmission of background data - two of the biggest culprits when it comes to phantom power drain.īelow are the buckets and the limitations placed on apps within them. ![]() Each bucket has varying degrees of limitations in terms of what device resources the apps in it can use. In a nutshell, when the Adaptive Battery AI determines how you use a certain app, the app is placed into one of five App Standby Buckets (or "Priority Buckets"). Though not explicitly stated, in the power management section, it's revealed that Adaptive Battery serves as a frontend for the new App Standby Buckets feature, which aims to allocate system resources according to the applications that need them the most. The Android Developer website provides detailed information about how Adaptive Battery works and what's going on under the hood. Except now, the system has varying levels of hibernation that it can put your apps into based on your usage. The system will put these infrequently used apps into a low-power state - if you remember Android Marshmallow's App Standby feature that would "hibernate" apps you didn't use, it's a lot like that. What it's really looking for is a list of apps that you don't often use. ![]() At the event, Dave Burke, Android's VP of Engineering, claimed the feature achieves up to a 30% reduction in CPU wake-up calls by disabling unnecessary processes.Īs it relies on machine learning, Adaptive Battery will improve over time as it monitors apps to determine your typical use patterns. Images by Jon Knight/ Gadget Hacks The Basicsįirst announced at this year's Google I/O, Adaptive Battery is one of a handful of new Android features to make use of Alphabet's DeepMind AI technology.
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