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I have a 2.67 GHz Celeron processor, 1.21 GB of RAM on a x86 Windows XP Professional machine. My understanding is that the Android emulator should start fairly quickly on such a machine, but for me it does not. I have followed all the instructions in setting up the IDE, SDKs, JDKs and such and have had some success in starting the emulator quickly but that is very rare. How can I, if possible, fix this problem?

Even if it starts and loads the home screen, it is very sluggish. I have tried the Eclipse IDE in Galileos, and Ganymede.

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52 Answers 52

The fastest emulators at the moment of writing this are the built-in x86 emulators which come with the Android SDK. You can find them in AVD manager where you create virtual machines. Simply pick any of them and then you pick the type of CPU (choose x86 for best performance). It will be as fast as your machine.

The latest such machine for Android 4.0 and 4.0.3 can be found in Giving your Android Emulator a Boost: Building Android ICS with Goldfish & x86 KVM support on EC2 - TestObject.

Note: This is only for a development purpose. To test for performance, you still have to either use a real device or test on the emulator with ARM CPU.

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I've similar issues on a Mac. What I did;

  • 1) on the emulator, settings-display -> disable screen orientation
  • 2) on Eclipse, emulator startup options -> -cpu-delay 100

Those had some effect in lowering CPU use (not it is around 40-60%), not ultimate solution. But again, the CPU use is NOT >100% anymore!

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I have noticed that an emulator gets slow over a period of time. So, one can delete the emulator which gets very slow and create a new one with the help of the AVD manager. I have tried it a couple of times and it works well.

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Remove unwanted activation of some of the plugins at start-up by going to windows-->preference-->General-->Startup and shutdown. Also make sure you don't use those plugins in any of your views

Eclipse is not a word processor. Better to disable the spell check. Disabling spell check will reduce the eclipse burden by going to Windows-->Preference-->General-->Editors --> Text Editors-->Spelling

When eclipse builds the project, it will delete all output folders and rebuild classes built by other compilers. We can disable such features, as deleting the output folders and rebuilding will take sometime. Goto Windows-->Preference-->Java-->Compiler-->Building

Disabling label decorations which is of less use for you, will also help you to gain some performance . Goto Windows-->Preference-->General-->Appearance-->Label Decorations

Close unwanted projects and use working set option to move from one group of project to another smoothly.

You could also disable Eclipse automatic building, if it is not needed for you. Goto Project-->Build Automatically (uncheck it)

Do not keep lot of tabs opened in the editor. Better to have around 20 tabs . Regularly close the unused tabs. To open resource we can always use ctrl+shift+R and ctrl+shift+T (java resource) instead of opening lot of tabs

Disable unwanted plugins. Full J2EE eclipse version has an option to disable/uninstall plugins. Goto Help-->Software Updates-->Manage Configuration. Right click on any installed plugin to get disable option. If this option is not available then enable Classic Update by going to Windows-->Preference-->Capabilty and check classic update. Now the manage configuration option should be available in help menu

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I just noticed something I can't explain, but hey, for me it works!

I was compiling Android from sources anyways and builtin emulator started in a few seconds (my machine is dual core AMD 2.7GHz) and in a minute, perhaps two at first run system was up. Using Eclipse ADT bundle, on the other hand, resulted in half an hour of emulator startup. Unacceptable.

Solution that works here (I have no means to test it on other machines, so if you feel inclined, test and verify):

  • download and build Android SDK on your machine. It may take some time (you know, compilation of whole system is tiresome). Instructions can be found here:
    1. http://source.android.com/source/initializing.html
    2. http://source.android.com/source/downloading.html
    3. http://source.android.com/source/building.html (I changed commands to 'lunch sdk-eng' and 'make sdk -j4'; besides that build tips are useful, especially concerning ccache and -jN option)
  • when done, run 'android' - SDK manager should appear. Download tools and desired platform packages. If commands are not found, try rerunning '. build/envsetup.sh' and 'lunch sdk-eng' commands to set up pathes; they are lost after exiting terminal session.
  • run 'emulator' to check how fast it starts up. For me it's MUCH faster than eclipse-bundled one.
  • if that works, point Eclipse to SDK you just compiled. Window-Preferences-Android in left pane->choose SDK location. It should be dir with 'tools' subdir and something in 'platforms' subdir. For me it's /out/host/linux-x86
  • Apply/OK, restart Eclipse if needed. If it does not complain about anything, run your Android app. In my case emulator starts in a few seconds and finishes boot under a minute. Still a bit delay, but entirely acceptable for me.

Also, I agree with running from snapshot and saving state to snapshot. My advice concerns only emulator startup time. I still have no idea why it is so long by default. Anyways, if that works for you, enjoy :)

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You need more memory.

Here's why I say that:

I'm using VirtualBox on Windows to run Ubuntu 10.10 as a guest. I installed Eclipse and the Android SDK on the VM. My physical box has 4 GB of memory, but when I first configured the Ubuntu virtual machine, I only gave it 1 GB. The emulator took about 15 minutes to launch. Then, I changed my configuration to give the VM 2 GB and the emulator was running in less than a minute.

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Simple easy sollution for beginners. I have tryed many ways and stopped with Genymotion in combination with Eclipse. Genymotion simply add virtual device to Eclipse Step by step:

  1. Download Genymotion with VirtualBox included from here.
  2. Install this package included build in VirtualBox.
  3. Install plugin into Eclipse from here.
  4. Start GenyMotion and create virtual device you want use and start it.
  5. In Eclipse Go to Window-Preferences-GenyMobile-GenyMotion and set path to GenyMotion (in my case C:/ProgramFiles/GenyMobile/Genymotion)
  6. Click on a project name in Eclipse you want to start. Start application using "Run as". In the list of devices you should see emulated device
  7. You cam emulate what you want.

In my case this sollution is one and only fast sollution. None emulators in Eclipse has never worked so fast, every settings was very slow. Only this sollution work almost in realtime. I can recommend (notebook i3, 2,6GHZ)

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I just took the default Android 3.1, and it was very slow, but since I realised my code was Android 2.3.3 compatible I switched to that. It's about 50% quicker and also the emulator looks more like my phone, and has a keyboard permanently displayed so that it is easier to use.

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In AVD Manager select the VD and click edit, set the resolution to little as you are able to read the text on VD.

I use 800x600 pixels, RAM set to 512 MB, and it works like a charm without high use of CPU time.

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I just started yesterday on Window 7 and facing the same problem. The easiest solution, I found and is working for me to use low config device in emulator. I used Nexus One instead of Nexus 7 and select the snapshot for the device in Android Virtual Device. And, also important is to leave open the emulator. It works both in Eclipse and Android Studio.

On window, it says snapshot does not generally work when RAM is more than ~700. So, selecting lower config one easily help to test Hello World and then for developing your application. Later, we can test on high end device.

For me, virtualization support does not work as my hardware does not support it.

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the Use of Android x86 provide good productivity than Android emulator

where as working with Android x86 4.2 provides extremely fast debugging with comparison to Android emulator its many many times faster for configuration

Working with latest Android X86 4.2 Jelly Bean and Virtual Box

I have found Different ways to connect with Internet and adb

Step: 1 Selection of Adapters

CASE 1: Only Internet {NAT Adapter}

The easiest solution is just use NAT adapter that will directly connect you to internet if host is connected to internet but you won't get the adb connection with this setup Here you will get Public ip so you can't connect to Host computer

NAT Adapter

Case 2: Only adb {Host Only Adapter}

The easiest solution is just use Host Only Adapter

Host Only Adapter Settings

Note: The default Host Only adapter may not work due to DHCP server settings either create new HostOnlyAdapter or run DHCP server for existing Adapter()

Case 3: For both adb and Internet {Bridge Adapter}

You will have to take care in this case.

If you are using LAN for internet connection you shall use Bridge Adapter with your Ethernet card it will give you local ip and Virtual Machine will connect to Internet using host machine

Alternatively if you are with Wifi just do the same by selecting the Wifi adapter

For other type of connection you shall go with the same way

Bridge Adapter

Step: 2 Connection with adb

to check the ip Address just press Alt+F1 {for console Window} [To switch back to Graphics view press Alt+F7 ]

you will see the console window type netcfg

it will show the ip address

Now move on to you host run command prompt move to adb directory

type adb connect {your ip address}


adb connect

Note: if adb is not running or responding you can do following

adb kill-server

adb start-server 

you can check devices connected to adb

adb devices

for Original Question

Click here

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If you have Intel CPU install this: http://software.intel.com/en-us/articles/intel-hardware-accelerated-execution-manager

then assing it as emulator's CPU in Emulator Settings. Before I done it on my i7 cpu it was taking about 10 minutes. Now it is opening in 15 seconds.

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Short answer: because of the ARM -> x86 instruction translations. The Emulator works in a similar fashion to a virtual machine that is tasked with booting a full fledged OS and running your test application afterwards. The ARM -> x86 translations can be very time consuming, less for your app, but more for when the OS is booting (it's proportional to complexity and number of instructions involved).

Some suggested running the code on x86 emulators. What this means is instead of loading an ARM based OS, you load an x86 variant that will run faster on your x86 machine, as no ARM->x86 translation are necessary. Still, this is not a perfect solution:

Android applications that use NDK and come packed with native libs (*.so) compiled for ARM, will not work on x86 emulators, so such programs will fail to run. But if you get to that point and get to deal with NDK/native JNI code, you probably know enough about emulators already.

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Using the ADB utility I've discovered some more information that is important.

The emulator is actually running, but it seems like the graphical interface may be the problem.

When the Android splash screen is up and you are waiting forever it looks like the following: enter image description here

The emulator is actually running because you can run the following command-line tool and see the listed processes:

adb -s emulator-5554 shell ps 

That will provide you with a list of processes which are running on the device, which seems stuck.

I piped the output to a file and here is a list of all the running processes:

USER     PID   PPID  VSIZE  RSS     WCHAN    PC         NAME

root      1     0     696    500   c02ae25a 0805a406 S /init
root      2     0     0      0     c02315a2 00000000 S kthreadd
root      3     2     0      0     c021f9dc 00000000 S ksoftirqd/0
root      5     2     0      0     c022e8d7 00000000 S kworker/u:0
root      6     2     0      0     c022e085 00000000 S khelper
root      7     2     0      0     c022e8d7 00000000 S kworker/u:1
root      255   2     0      0     c02886de 00000000 S sync_supers
root      257   2     0      0     c028935e 00000000 S bdi-default
root      259   2     0      0     c022e085 00000000 S kblockd
root      267   2     0      0     c022e085 00000000 S ata_sff
root      278   2     0      0     c04f610f 00000000 S khubd
root      283   2     0      0     c022e085 00000000 S md
root      297   2     0      0     c022e085 00000000 S cfg80211
root      298   2     0      0     c022e8d7 00000000 S kworker/0:1
root      413   2     0      0     c0283057 00000000 S kswapd0
root      481   2     0      0     c02cd713 00000000 S fsnotify_mark
root      501   2     0      0     c022e085 00000000 S crypto
root      590   2     0      0     c022e085 00000000 S iscsi_eh
root      611   2     0      0     c048aa21 00000000 S mtdblock0
root      619   2     0      0     c048aa21 00000000 S mtdblock1
root      627   2     0      0     c048aa21 00000000 S mtdblock2
root      666   2     0      0     c022e8d7 00000000 S kworker/0:2
root      700   2     0      0     c022e085 00000000 S binder
root      724   2     0      0     c022e085 00000000 S deferwq
root      725   1     624    348   c02ae25a 0805a406 S /sbin/ueventd
root      932   2     0      0     c055236e 00000000 S mmcqd/0
root      939   2     0      0     c0340f30 00000000 S yaffs-bg-1
root      941   2     0      0     c0340f30 00000000 S yaffs-bg-1
root      942   2     0      0     c0340f30 00000000 S yaffs-bg-1
system    943   1     1340   400   c056a35d b76a1eb6 S /system/bin/servicemanager
root      944   1     5540   924   ffffffff b7646c11 S /system/bin/vold
root      947   1     1548   504   c05785ce b766c163 S /system/bin/debuggerd
radio     948   1     6420   1016  ffffffff b76d3c11 S /system/bin/rild
system    949   1     20088  2876  ffffffff b7655eb6 S /system/bin/surfaceflinger
drm       951   1     10480  2920  ffffffff b7585eb6 S /system/bin/drmserver
keystore  954   1     5036   1416  c056a35d b765deb6 S /system/bin/keystore
root      955   1     1324   440   c02d0083 b76b28ab S /system/bin/qemud
shell     958   1     1428   668   c03e9ad9 b767fa76 S /system/bin/sh
root      959   1     4680   304   ffffffff 08063530 S /sbin/adbd
graphics  1012  1     17980  4276  ffffffff b7652eb6 S /system/bin/bootanimation
media     4743  1     25288  6232  ffffffff b75beeb6 S /system/bin/mediaserver
root      4744  1     3944   1164  00000000 b7628976 R /system/bin/netd
root      4770  4744  0      0     c021de78 00000000 Z iptables
root      4771  959   1768   540   00000000 b766fa76 R ps

For fun I then ran the following command and killed the "Android" animation:

adb -s emulator-5554 shell kill 1012

The splash screen became blank so something is really happening.

I tried and succeeded at killing some other processes and that made me feel good but the emulator still didn't ever seem to start. Oh well. I'm running a QuadCore i7 with 8Gb of ram. Also running the haxm with the settings described in other posts in this question.

Note: I'm updating this on 09/19/2014 - I learned that this odd behavior where the emulator would attempt to start the instance but never would was all related to the file rights on the emulator files. They were set to read-only because of the way they were copied, so the emulator attempts to install and write to its "virtual disk" but it's "virtual disk" is really a file or set of files which my OS has set to read-only and so it fails. These failures cause the emulator to never start. I set the files to full access and the emulator starts up in record time.

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Try using the Intel X86 Atom Storage Image for relatively faster boot up than using ARM based images when emulating the device. Another thing is to be taken into the notice is that the according to your system configuration running a android emulator with 1.21 Ram can be a sluggish experience because emulator requires up some certain percentage of RAM which is used for emulating the device, not forgetting about the RAM used by the ADT. Try System image of 2.1-2.3.3 for at least runnable experience.Plus not forgetting about Save to Snapshot for quicker loading. Though the first load may take time. But saving to snapshot definitely saves up some time.

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Now on ADT 21, it provides more options for a fast emulator... You should use 512 MB RAM, lower CPU Time, Device Selection and VM Heap Size high. For better results, you should use Intel Atom in CPU/ABI... Using Snapshot and CPU Host may not increase your speed of the emulator, but there are useful ones for other purposes.

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Try scaling down the emulator, it makes it a bit faster, even if it doesn't it really feels faster.

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Try to reduce the screen size of emulator while creating new android virtual device.

I have seen that this will launch the emulator very fast compared to Default options provided in AVD manager.

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Try reducing screen size, and maybe you should consider using Ubuntu. I've had the same issue, and somehow my emulator same pc works 5 times faster when using Linux.

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Enabling snapshot may not make it faster in the first run; do not go for big SD size. Adjust the SD card size to 100 MB in the first run.

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For fast testing (<1 second) use buildroid with VirtualBox's first network card set to “host only network” and then run

C:\Program Files (x86)\Android\android-sdk\platform-tools>adb connect *.*.*.*:5555
connected to *.*.*.*:5555

(^) DOS / bash (v)

# adb connect *.*.*.*:5555
connected to *.*.*.*:5555

where *. *. * .* is the buildroid IP address you get by clicking the buildroid app in buildroid main screen.

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This is what has worked for me: -Setting AVD RAM to 512 MB -Setting SDCard memory to 10MB Setting a large SDCard memory size is one of the biggest causes of a slow AVD.

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protected by Bill the Lizard Mar 12 '11 at 4:47

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