Android X86 is a complete software solution for Android on common x86 platforms that able to emulate apps and games on PC. You may think Android-x86 For Windows like an Android BSP of generic x86 platforms. This is an open-source project licensed under Apache Public License 2.0. Some components are licensed under GNU General Public License (GPL) 2.0 or later. The original plan is to host different patches for android x86 support from the open-source community.
The project is completely open-source and has been designed to run on computers with the “x86” architecture, which is basically devices with Intel chips. Android-x86 has now received an update, bumping the project up to the 8.1-rc1 release which brings Android 8.1 Oreo to the users.
What is Android Emulator?
The Android Emulator simulates Android devices on your computer so that you can test your application on a variety of devices and Android API levels without needing to have each physical device.
The emulator provides almost all of the capabilities of a real Android device. You can simulate incoming phone calls and text messages, specify the location of the device, simulate different network speeds, simulate rotation and other hardware sensors, access the Google Play Store, and much more.
Android-X86 Emulator For PC Software Features
- Support for both 64-bit and 32-bit kernels and user-spaces has been added.
- This release supports OpenGL ES 3.x hardware acceleration for Intel/AMD/Nvidia, VMWare, and QEMU(virgl) by Mesa 18.1.2.
- For unsupported GPU devices, OpenGL ES 2.0 is now supported via SwiftShader for software rendering.
- For devices with Intel HD and the G45 graphics family, hardware-accelerated codecs are now supported.
- A text-based GUI Installer has been added.
- Secure booting from UEFI and installing to UEFI disk is now supported.
- Theme support to GRUB-EFI has now been added as well.
- Multi-touch, Audio, WiFi, Bluetooth, Sensors, Camera, and Ethernet (DHCP only) are supported as well.
- External USB Drive and SDCard support have also been added to this release.
- Taskbar, an alternative launcher (which puts a start menu and recent apps tray on top of the screen of the user) has been added to the release.
- For devices that lack known sensors, Force Default Orientation has been enabled which lets portrait apps run in devices with landscape orientation without having the user rotate the screen.
- ARM Arch apps are now supported via the native bridge mechanism. The option is available at the “Android-x86 options” menu inside Settings.
- The Android-x86 requires a Virtual Machine installation to run Android apps but can be installed as a standalone Live system, thanks to the convenient ISO image.
- The default support for netbook native resolution helps this Linux Android emulator adjust appropriately to your PC screen and thus utilize resources in a much more optimized manner.
- Android-x86 comes with in-built support for Wi-Fi and provides an intuitive GUI to access and configure your network connections.
- If you want to mount your existing Android memory storage directly to your Android emulator Linux, you can do so pretty quickly with the Android-x86.
- The default debugs mode features a busybox and will come in handy when locating bugs in your Android apps.
Although this release is fairly stable, there are two known issues:
- Google Play Services might crash at times on 32-bit images.
- For some devices, “suspend” and “resume” features don’t work.
|Operating System||Windows 7, 8, 10|
Official Video Intro Android X86 Emulator
Android-X86 Emulator FAQs
How to configure battery service with Android-X86 Emulator?
Android battery service was developed with only one type of battery and power management in mind. When running Android on the different hardware platforms, the battery status often shows up incorrectly. To resolve this issue, we have developed an easier method of supporting different platforms and battery types. This document explains how to configure the android-x86 platform to support different type of batteries.
Is android x86 safe to use?
It’s safe but you may not have a great experience – Android as of version 4 and newer mandates hardware acceleration that virtual machines (particularly Virtual Box and VMWare) don’t really provide consistently.
How can I use Android x86 on my PC?
- Step 1: Download Android x86 ISO File. Login to your Windows System, open a web browser and navigate to official website of Android x86 Operating System.
- Step 2: Download Rufus Flashing tool.
- Step 3: Flash Android x86 ISO to USB Flash Drive.
- Step 4: Set and Boot from bootable Flash Drive.
- Step 5: Install Android x86 on PC.
If you ever wanted to run Android on a desktop computer or laptop, the Android-x86 does just that. It allows users to install the Android OS or just use it directly from a USB flash drive or optical media on their personal computers.