Quick Boot & the Top Features in the Android Emulator

Posted by Jamal Eason, Product Manager, Android

Today, we are excited to announce Quick Boot for the Android Emulator. With
Quick Boot, you can launch the Android Emulator in under 6 seconds. Quick Boot
works by snapshotting an emulator session so you can reload in seconds. Quick
Boot was first released with Android Studio 3.0 in the canary update channel and
we are excited to release the feature as a stable update today.

In addition to this new feature, we also wanted to highlight some of the top
features from recent releases. Since the complete revamp of the Android Emulator
href="https://android-developers.googleblog.com/2015/12/android-studio-20-preview-android.html">two
years ago, we continue to focus on improving speed, stability and adding a
rich set of features that accelerate your app development and testing. With all
the recent changes, it is definitely worth updating to the latest version of the
Android Emulator to use it today.

Top 5 Features

• Quick Boot - Released as a stable feature today, Quick Boot
  allows you to resume your Android Emulator session in under 6 seconds. The first
  time you start an Android Virtual Device (AVD) with the Android Emulator, it
  must perform a cold boot (just like powering on a device), but subsequent starts
  are fast and the system is restored to the state at which you closed the
  emulator last (similar to waking a device). We accomplished this by completely
  re-engineering the legacy emulator snapshot architecture to work with virtual
  sensors and GPU acceleration. No additional setup is required because Quick Boot
  is enabled by default starting with Android Emulator v27.0.2.

Quick Boot in the Android Emulator

• Android CTS Compatibility - With each
  release of the Android SDK, we ensure that the Android Emulator is ready for
  your app development needs, from testing backwards compatibility with Android
  KitKat to integrating the latest APIs of the developer preview. To increase
  product quality and reliability of emulator system images, we now qualify final
  Android System Image builds from Android Nougat (API 24) and higher against the
  Android Compatibility Test
  Suite (CTS)—the same testing suite that official Android physical devices
  must pass.

• Google Play Support - We know that many
  app developers use Google Play Services, and it can be difficult to keep the
  service up to date in the Android Emulator system images. To solve this problem,
  we now offer versions of Android System Images that include the Play Store app.
  The Google Play images are available starting with Android Nougat (API 24). With
  these new emulator images, you can update Google Play Services via the Play
  Store app in your emulator just as you would on a physical Android device. Plus,
  you can now test end-to-end install, update, and purchase flows with the Google
  Play Store.

• Performance Improvements - Making the
  emulator fast and performant is an on-going goal for our team. We continuously
  look at the performance impact of running the emulator on your development
  machine, especially RAM usage. With the latest versions of the Android Emulator,
  we now allocate RAM on demand, instead of allocating and pinning the memory to
  the max RAM size defined in your AVD. We do this by tapping into the native
  hypervisors for Linux (KVM) and macOS^® (Hypervisor.Framework), and an
  enhanced Intel^® HAXM (v6.2.1 and higher) for Microsoft^®
  Windows^®, which uses the new on-demand memory allocation.




Additionally, over the last several releases, we have improved CPU and I/O
performance while enhancing GPU performance, including OpenGL ES 3.0 support.
Looking at a common task such as ADB push highlights the improvements in the
Android CPU and I/O pipelines:











ADB Push Speed Comparison with Android Emulator





For GPU performance, we created a sample href="https://github.com/google/gpu-emulation-stress-test">GPU emulation stress
test app to gauge improvements over time. We found that the latest emulator
can render higher frame rates than before, and it is one of the few emulators
that can render OpenGL ES 3.0 accurately per the Android specification.

GPU Emulation Stress Test - Android App

GPU Emulation Stress Test with Android Emulator

More Features

In addition to these major features, there are a whole host of additional
features that we have added to the Android Emulator over the last year that you
may not be aware of:

• Wi-Fi support - Starting with API 24 system images, you can
  create an AVD that both connects to a virtual cellular network and a virtual
  Wi-Fi Access Point.
  
• Google Cast support - When using a Google Play system
  image, you can cast screen and audio content to Chromecast devices on the same
  Wi-Fi network.
  
• Drag and drop APKs & files - Simply drag an APK onto the
  Android Emulator window to trigger an app install. Also you can drag any other
  data file and find it in the /Downloads folder in your Android Virtual Device.
  
• Host copy & paste - You can copy & paste text between the
  Android Emulator and your development machine.
  
• Virtual 2-finger pinch & zoom - When interacting with apps
  like Google Maps, hold down the Ctrl Key (on Microsoft^®
  Windows^® or Linux) or ⌘ (on macOS^® ) , and a finger
  overlay appears on screen to aid with pinch & zoom actions.
  
• GPS location - Manually select a GPS point or set of GPS
  points under the Location tab of the Android Emulator.
  
• Virtual sensors - There is a dedicated page in the extended
  controls panel that has supported sensors in the Android Emulator including
  acceleration, rotation, proximity and many more.
  
• WebCam support - You can use a webcam or your laptop
  built-in webcam as a virtual camera in the AVD. Validate your AVD camera
  settings in the Advanced Settings page in the AVD Manager.
  
• Host machine keyboard - You can use your real keyboard to
  enter text into the Android Virtual Device.
  
• Virtual SMS and phone calls - In the extended controls
  panel, you can trigger a virtual SMS or phone call to test apps with telephony
  dependencies.
  
• Screen zooming - On the main toolbar, click on the magnify
  glass icon to enter zoom mode, and then select a region of the screen you want
  to inspect.
  
• Window resizing - Simply drag a corner of the Android
  Emulator window to change to the desired size.
  
• Network proxy support - Add a custom HTTP proxy for your
  Android Emulator session by going to the Settings page under the Proxy tab.
  
• Bug reporting - You can quickly generate a bug report for
  your app by using the Bug Report section in the extended controls panel to share
  with your team or to send feedback to Google.

Learn more about the Android Emulator in the href="https://developer.android.com/studio/run/emulator.html">Emulator
documentation.

Getting Started

All of these features and improvements are available to download and use now
with Android Emulator v27.0.2+, which you can get via the SDK Manager in Android
Studio. For a fast experience, we recommend creating and running the x86 version
of emulator system images, with the latest Android Emulator, Intel® HAXM (if
applicable) and graphics drivers installed.

We appreciate any feedback on things you like, issues or features you would like
to see. If you find a bug, issue, or have a feature request feel free to href="https://developer.android.com/studio/report-bugs.html#emulator-bugs">file
an issue. We are definitely not done, but we hope you are excited about the
improvements so far.