You can install the software with Arch Linux from the Arch User Repository (AUR). As of yet, no DEB or RPM packages are available for installing Genymotion through the package manager. The project has another archive for 64-bit Debian, for which you should also integrate the libpng3 A unified binary archive exists for 32-bit or 64-bit Ubuntu, Fedora, and Red Hat. To run Genymotion with Linux, the developers provide various downloads. For Linux, you need to install VirtualBox before starting Genymotion from the repository of the distro used. For Windows, there's also a version that includes VirtualBox. ![]() Downloads are available for Windows, Mac OS X, and Linux. You can obtain the virtual Android as Genymotion after a free registration on the project homepage. The prerequisites are a reasonable current PC and an OpenGL-capable graphics card with the associated drivers (see the "Genymotion: System Prerequisites" box). Thanks to OpenGL support, the virtual Android in Genymotion runs practically as fast and smoothly on the PC as is expected on the smartphone itself. For now, Genymotion remains available to any interested user. Additional developer features are to be added later, which can be unlocked based on purchasing a license. In the meantime, AndroVM has developed into a commercial project, known as Genymotion, which is still a cost-based version of the Android VM. The virtualized Android was then already running quite a bit faster than the emulator from the SDK. Based on work in Android x86, which made Android runnable on conventional PC architectures, AndroVM ported Android to a virtual machine with help from VMware or VirtualBox. The AndroVM open source project has long been available as an alternative. Maps, Chrome and, of course, the Play Store aren't readily available from the emulated system, and subsequent app installations from Google Market aren't possible. For another, the emulator system never includes the Google Framework. ![]() For one thing, the emulator is sluggish – even if it's now possible to use the host CPU. ![]() The official emulator, however, suffers from a series of limitations. They can then safely test apps, play their favorite phone game, or find out which not readily available app can work on a tablet. Users are constantly looking for ways to capture an Android phone in a window. Not only developers but also users can benefit from a virtual Android on their system. Figure 1: The Android emulator can only be used for experimentation because of its sluggishness.
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