This page is deprecated. Redirecting to https://developer.android.com/studio/run/emulator.html
Intel Hardware Accelerated Execution Manager (HAXM) HAXM is a cross-platform hardware-assisted virtualization engine (hypervisor), widely used as an accelerator for Android Emulator and QEMU. It has always supported running on Windows and macOS, and has been ported to other host operating systems as well, such as Linux and NetBSD. If the Hypervisor Framework is not supported by your Mac, you can use HAXM to accelerate the Android emulator (described next). Accelerating with HAXM If your Mac does not support the Hypervisor framework (or you are using a version of macOS earlier than 10.10), you can use Intel's Hardware Accelerated Execution Manager ( HAXM ) to speed up the.
The following suggestions are often helpful in diagnosing Android emulator issues. Starting the emulator from the command line. If the emulator is not already running, you can start it from the command line (rather than from within Visual Studio for Mac) to view its output. Typically, Android emulator AVD images are stored at the following. On Mac OS X v10.10 Yosemite and higher, the Android Emulator uses the built-in Hypervisor.Framework by default, and falls back to using Intel HAXM if Hypervisor.Framework fails to initialize. To use VM acceleration on macOS when the Hypervisor.Framework is not available, you must install the Intel HAXM kernel extension. Android SDK Tools (25.0.0 or higher to get the new emulator) Android SDK Platform-Tools (23.1.0 or higher to get the fast ADB) Intel x86 Emulator Accelerator (HAXM installer) (rev 6.0.1 or higher to get CPU acceleration) Click OK to check for updates. Create new Android Virtual Device (AVD).
The Android Studio 2.0 (or higher) preview includes the new Android Emulator 2.0 with improved performance and a new user interface to control device features. This page describes some of the changes compared to the emulator available with the stable version of Android Studio 1.5 and how to setup your development environment to use the Android Emulator.
For best performance with Android Emulator 2.0, your system should meet the following specifications:
Windows: Intel® processor with support for Intel® VT-x, Intel® EM64T (Intel® 64), and Execute Disable (XD) Bit functionality. AMD and Intel Atom processors do not support VT-x virtual machine acceleration.
Linux: Intel® processor with support for Intel® VT-x, Intel® EM64T (Intel® 64), and Execute Disable (XD) Bit functionality or AMD processors with support for AMD Virtualization™ (AMD-V™)
64-bit Operating Systems.
The most valuable updates to the Android Emulator are the speed improvements. When running with Android Studio 2.0 or higher on an x86 machine, response time is faster than the previous Android Emulator and you can transfer files from your machine faster than a physical Android device.
The latest Android Emulator supports new multi-finger touch inputs, including pinch zoom and two finger rotate gestures. Holding down Alt or Option reveals two finger points. Moving the mouse moves one finger and the second finger is mirrored across an anchor point. Clicking the left mouse button enables pinch-zoom gestures and clicking the right mouse button enables two-finger rotate gestures (such as to tilt the perspective when viewing a map).
The panel on the right side of the emulator lets you perform common tasks, such as rotate the screen, capture screenshots, and zoom in on the display.
To install apps, you can drag and drop an APK right on the emulator. You can also drag and drop other file types and they'll be saved to the /sdcard/Download/ directory.
At the bottom of the toolbar on the right is an ellipsis button that opens the Extended Controls window. In here you'll find various controls that invoke device events and mock device sensors.
Keyboard shortcuts are available for most actions and are listed in the Help panel, listed on the left.
The new Android Emulator is available with Android Studio 2.0 or higher, which is available in both the Stable, Beta and Canary channels.
Once you make sure you have the appropriate emulator system image and other tools:
Open the SDK Manager from Android Studio.
Click the SDK Platforms tab, and select the check box for a recent version such as the Android 6.0 (Marshmallow). By default, this includes the x86 system image that you need for the emulator. You can see and modify the files to download by clicking Show Package Details at the bottom-right.
Click the SDK Tools tab, then select the check boxes for the following:
Android SDK Tools (25.0.0 or higher to get the new emulator)
Android SDK Platform-Tools (23.1.0 or higher to get the fast ADB)
Intel x86 Emulator Accelerator (HAXM installer) (rev 6.0.1 or higher to get CPU acceleration)
Click OK to check for updates.
To take advantage of the new Android Emulator and adb speeds, you need to create new AVDs. In this example below, we are creating a Nexus 5x AVD.
Open the AVD Manager from Android Studio.
Click Create Virtual Device.
Select the defaults for Nexus 5x.
Select a system image, such as Marshmallow - API 23 - x86.
Select Show Advanced Settings.
Select the Multi-Core CPU check box. The number of cores available depends on the number of cores available on your development machine.
Run your new Android Virtual Device by click on the green Play button.
You should see the Android Emulator now start up.
If you selected the defaults during the Android Studio installation you should be ready to go. If you created a custom Android Studio installation or run into issues, read the troubleshooting guide below. If your Intel x86 Emulator Accelerator is out of date, Android Studio will automatically inform you and suggest a quick fix to update, as shown in the following screenshot in the AVD Manager.
If you skipped the initial setup of Android Studio, you should make sure the CPU acceleration is installed.
You can manually install Intel x86 Emulator Accelerator by opening intelhaxm-android.exe (on Windows) or intelHAXM_6.0.1.dmg (on Mac) from /sdk/extras/intel/Hardware_Accelerated_Execution_Mangager, as shown below:
Installing HAXM in Windows
Installing HAXM in OS X
For Linux, the Android emulator usesKernel-based Virtual Machine (KVM). If you are using Ubuntu, you can run check your KVM system compatibility by running the following on the command line:
$egrep –c '(vmx svm)' /proc/cpuinfo
on the command line to check for for a return value of greater than 1
To check if you have KVM installed by running the following on the command line:
If KVM is missing or to ensure you have the latest KVM installed, run the following on the command line:
$sudo apt-get install qemu-kvm libvirt-bin ubuntu-vm-builder bridge-utils ia32-libs-multiarch
The linux commands look like the following on Ubuntu:
Emulating inbound phone call freezes emulator.
Screenshot feature crashes emulator in certain conditions.
If an AVD has been opened in a previous version of the emulator, it may not boot in the new emulator, therefore create a new AVD.
OSX - screen doesn't go black when you sleep the device.
Linux - segfault on exit in some conditions.
'-gpu mesa' option not supported.
'-net*' option not supported.
'-no-window' option not supported.
Remote desktop not supported.
Emulated hardware 'recents' key doesn't work in older system images.
Multiple DNS servers not supported.
If you find other issues in the Android Emulator, pleasefile a bug report.
We have more features in the pipeline, but if you may also submit feature requests.