From what I have read so far colinux and Portable Ubuntu (don't support Windows x64. Cooperative Linux (short-named coLinux) is the first working free and open source method for optimally running Linux on Microsoft Windows natively. More generally, Cooperative Linux is a port of the Linux kernel that allows it to run cooperatively alongside another operating system on a single machine. Portable Ubuntu Runs Ubuntu Inside Windows. And you'll likely get a few prompts to 'Unblock' coLinux and a few other apps' abilities on your system. And you can keep both your. Lifehacker: Portable Ubuntu for Windows. 15 posts / 0 new. Log in or register to post comments. It's a known fact, coLinux doesn't work on Windows x64. LinuxInsider Talkback. How about running Ubuntu from a USB drive on any Windows PC while still operating within Windows? Portable Ubuntu provides both of these computing options, no setup hassles or programming skills required. Like all systems based on coLinux, it doesn't work on 64 bit windows host OSes. You should make this more. Portable Ubuntu For Windows. Starting portable Ubuntu in Windows will open a command line window which will remain open all the time. It sounds like coLinux.
Learn how to download and install Ubuntu Linux on Windows 10 in such a way that it won’t harm Windows. Using this method Ubuntu Linux will only run when you tell it to and it doesn’t require any special partitioning of your disks.
This installation method requires you to download a piece of software called VirtualBox from Oracle which allows you to run other operating systems as virtual computers on top of your current operating system, including Windows 10.
In order to install Ubuntu Linux on Windows 10 you will need to download the following applications:
There are also some alternative guides for Windows 7 and Windows 8 users installing Ubuntu Linux.
Download Virtualbox by clicking on the large download button in the middle of the screen.
To find out whether you are running a 32-bit or 64-bit system click on the Windows start button and search for PC Info.
The screen that appears tells you lots of useful information about your computer such as the amount of RAM, the processor, and the current operating system.
The most important part, however, is the system type which as you can see from the image shows that my system is 64-bit. Using the same technique you can work out which system type your computer is.
There are two versions of Ubuntu available:
Ubuntu 14.04 is for people who don’t want to upgrade their operating system every 6 months. The support period has a number of years to run and therefore it really is a case of installing it and getting on with your life.
Ubuntu 15.04, 15.10 and beyond are the latest releases and have more up to date developments which aren’t available in 14.04. The downside is that the support period is much shorter at just 9 months. The upgrade process isn’t a big deal but obviously requires more effort than just installing 14.04 and leaving it.
There is a big download link next to both versions and it is up to you whether you want to install 14.04 or 15.04 and beyond. The installation process doesn’t really change.
The guest additions make it possible to run the Ubuntu virtual machine in full-screen mode at a suitable resolution.
There are a lot of links on this page. Click on the link that matches the version of Virtualbox you downloaded previously.
When the next page opens click on the link for VBoxGuestAdditions.iso (There will be a version number as part of the link i.e. VBoxGuestAdditions_5_0_6.iso).
Press the start button and search for Downloads. Click on the link to the Downloads file folder.
When the downloads folder opens click on the Virtualbox application file you downloaded earlier on.
The Virtualbox setup wizard will begin. Click Next to start the installation.
The next screen lets you choose the Virtualbox installation options.
There is absolutely no reason not to choose the defaults unless you want to choose a different installation location in which case click on Browse and navigate to where you want to install Virtualbox.
You now have the option to create shortcuts, either on the desktop and/or the quick launch bar and whether to register file associations such as VDI files to Virtualbox.
It is up to you whether you want to create shortcuts. Windows 10 is really easy to navigate with the powerful search button so you might decide not to bother creating either of the shortcuts.
A warning will appear stating that your network connection will temporarily be reset. If this is a problem to you right now then click No and come back to the guide at a later stage otherwise click Yes.
You are finally at the point of installing Virtualbox. Click the Install button.
A security message will appear asking whether you are sure you wish to install Virtualbox and halfway through the install you will be asked whether you want to install the Oracle Universal Serial Bus device software. Click Install.
You can start Virtualbox simply by leaving the Start Oracle VM Virtualbox after installation checked and clicking Finish or for future reference click the Start button and search for VirtualBox.
Give your machine a name. It is a good idea to go for the Linux distribution name (i.e. Ubuntu) and the version number (14.04, 15.04, 15.10 etc).
Select Linux as the type and Ubuntu as the version. Make sure you choose the correct version based on whether you have a 32-bit or 64-bit machine.
You now have to choose how much of your computer’s memory you will assign to the virtual machine.
You cannot assign all of your computer’s memory to the virtual machine as you need to leave enough for Windows to continue running as well as any other programs that you have running within Windows.
The minimum you should consider assigning to Ubuntu is 2 gigabytes which are 2048 MB. The more you can give the better but don’t go overboard. As you can see I have 8 gigabytes of memory and I have assigned 4 gigabytes to the Ubuntu virtual machine.
Note that the amount of memory you set aside is only used while the virtual machine is running.
Slide the slider to the amount you want to assign and click Next.
After assigning memory to the virtual machine you now have to set aside some hard drive space. Select the Create a virtual hard disk now option and click Create.
There are a number of different hard drive types that you can choose from. Choose VDI and click Next.
There are two ways to create the virtual hard drive:
If you choose dynamically allocated it will only use space as it is required. So if you set 20 gigabytes aside for the virtual hard drive and only 6 is required then only 6 will be used. As you install more applications the extra space will be allocated as necessary.
This is more efficient in terms of disk space usage but isn’t so good for performance because you have to wait for the space to be allocated before you can use it.
The fixed size option allocates all the space you request straight away. This is less efficient in terms of disk space usage because you may have set aside space you never actually use but it is better for performance. This is the better option as your computer generally has more disk space than memory and CPU power.
Finally, you are at the stage of setting how much space you wish to give to Ubuntu. The minimum is about 10 gigabytes but the more you can spare the better. You don’t have to go overboard though. If you are just installing Ubuntu in a virtual machine to test it out go for a smaller amount.
The virtual machine has now been created but it is like a computer that doesn’t have an operating system installed yet.
The first thing to do is to boot into Ubuntu. Click the start icon on the toolbar.
This is the point where you need to choose the Ubuntu ISO file you downloaded earlier. Click on the folder icon next to the Host Drive dropdown.
Navigate to the download folder and click on the Ubuntu disc image and then on Open.
Click on the Start button.
Ubuntu should load into the little window and you will have the option to try Ubuntu or install Ubuntu.
A list of pre-requisites will be displayed. Basically, you need to make sure your machine has enough power (i.e. plug it in if you are using a laptop), has over 6.6 gigabytes of disk space and is connected to the internet.
You also have the option of downloading updates whilst installing and to install third party software.
If you have a good internet connection check the download updates option otherwise untick it and leave the updates to install at a later point post installation.
Check the install third party software option as it will allow you to play MP3 audio and watch Flash videos.
The next step lets you decide how to install Ubuntu. As you are using a virtual machine select the Erase disk and install Ubuntu option.
Do not worry. This will not erase your physical hard drive. It will just install Ubuntu in the virtual hard drive created earlier on.
A message will appear showing you the changes that will be made to your disk. Again this is only your virtual hard drive and so it is safe to click Continue.
You will now be required to choose where you live. You can either select the place on the map or type it into the box available.
The penultimate step is to choose your keyboard layout.
You may find that the correct layout has already been chosen but it isn’t, try clicking on the Detect Keyboard Layout option.
If that doesn’t work, click on the language for your keyboard in the left panel and then choose the physical layout in the right pane.
The final step is to create a user.
Enter your name into the box provided and give your virtual machine a name.
Now choose a username and enter a password to associate with that user. (repeat the password as required).
The other options are to log in automatically or require a password to log in. You can also choose to encrypt your home folder.
As it is a virtual machine you may as well go for the Log in automatically option but we recommend always selecting the Require my password to log in.
Ubuntu will now be installed.
When the installation has finished click the File menu and choose close.
You have the option to save the machine state, send the shutdown signal or power off the machine. Choose power off the machine and click OK.
The next step is to install the guest additions.
Click on the settings icon on the VirtualBox toolbar
Click on the storage option and then click on IDE and choose the little circle with a plus symbol icon which adds a new optical drive.
An option will appear asking you to choose which disk to insert into the optical drive. Click on the Choose disk button.
Navigate to the downloads folder and click on the VBoxGuestAdditions disc image and select Open.
When you are back at the main screen click the start button on the toolbar.
Ubuntu will boot for the first time but you won’t be able to use it full screen until the guest additions are properly installed.
Click on the CD icon at the bottom of the launcher panel on the left and make sure there are files for VirtualBox Guest Additions.
Right-click on an empty space where the list of files are and choose open in terminal.
Type the following into the terminal window:
Finally, you need to reboot the virtual machine.
Click on the little cog symbol in the top right corner and choose shutdown.
You will be given the choice to restart or shutdown. Choose Restart.
When the virtual machine restarts choose the View menu and select Full-Screen Mode.
A message will appear telling you that you can toggle between full screen and windowed mode by holding down the right CTRL key and F.
You're done! Great job.
Congratulations! You should now have successfully installed Ubuntu as a virtual machine on Windows 10.
| Original author(s) | Dan Aloni |
|---|---|
| Developer(s) | Community |
| Initial release | January 25, 2004; 15 years ago |
| Stable release | |
| Operating system | Windows NT family |
| Type | Platform virtualization |
| License | GNU General Public License |
| Website | colinux.org |
Cooperative Linux, abbreviated as coLinux, is software which allows Microsoft Windows and the Linux kernel to run simultaneously in parallel on the same machine.[3]
Cooperative Linux utilizes the concept of a Cooperative Virtual Machine (CVM). In contrast to traditional virtual machines, the CVM shares resources that already exist in the host OS. In traditional VM hosts, resources are virtualized for every (guest) OS. The CVM gives both OSs complete control of the host machine while the traditional VM sets every guest OS in an unprivileged state to access the real machine.
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The term 'cooperative' is used to describe two entities working in parallel. In effect Cooperative Linux turns the two different operating system kernels into two big coroutines. Each kernel has its own complete CPU context and address space, and each kernel decides when to give control back to its partner.
However, while both kernels theoretically have full access to the real hardware, modern PC hardware is not designed to be controlled by two different operating systems at the same time. Therefore, the host kernel is left in control of the real hardware and the guest kernel contains special drivers that communicate with the host and provide various important devices to the guest OS. The host can be any OS kernel that exports basic primitives that allow the Cooperative Linux portable driver to run in CPL0 mode (ring 0) and allocate memory.[4]
Dan Aloni originally started the development of Cooperative Linux based on similar work with User-mode Linux. He announced the development on 25 Jan 2004.[5] In July 2004 he presented a paper at the Linux Symposium.[6] The source was released under the GNU General Public License. Other developers have since contributed various patches and additions to the software.
Cooperative Linux is significantly different from full x86 virtualization, which generally works by running the guest OS in a less privileged mode than that of the host kernel, and having all resources delegated by the host kernel. In contrast, Cooperative Linux runs a specially modified Linux kernel that is Cooperative in that it takes responsibility for sharing resources with the NT kernel and not instigating race conditions.
Most of the changes in the Cooperative Linux patch are on the i386 tree—the only supported architecture for Cooperative at the time of this writing. The other changes are mostly additions of virtual drivers: cobd (block device), conet (network), and cocon (console). Most of the changes in the i386 tree involve the initialization and setup code. It is a goal of the Cooperative Linux kernel design to remain as close as possible to the standalone i386 kernel, so all changes are localized and minimized as much as possible.
The coLinux package installs a port of the Linux kernel and a virtual network device and can run simultaneously under a version of the Windows operating system such as Windows 2000 or Windows XP. It does not use a virtual machine such as VMware.
Debian, Ubuntu, Fedora and Gentoo are especially popular with the coLinux users.
Due to the rather unusual structure of the virtual hardware, installing Linux distributions under coLinux is generally difficult. Therefore, users in most cases use either an existing Linux installation on a real partition or a ready made filesystem image distributed by the project. The filesystem images are made by a variety of methods, including taking images of a normal Linux system, finding ways to make installers run with the strange hardware, building up installs by hand using the package manager or simply upgrading existing images using tools like yum and apt. An easier way to get an up-to-date filesystem image is to use QEMU to install Linux and 'convert' the image by stripping off the first 63 512-byte blocks as described in the coLinux wiki.
Since coLinux does not have access to native graphics hardware, X Window or X Servers will not run under coLinux directly, but one can install[7] an X Server under Windows, such as Cygwin/X or Xming and use KDE or GNOME and almost any other Linux application and distribution. All of these issues are fixed by using coLinux based distributions such as andLinux, based on Ubuntu, or TopologiLinux, based on Slackware.