Virtualization: Difference between revisions

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{{Image|Simple_Virtualization_Diagram.png|right|275px|A "computer running in a computer"}}
{{Image|Simple_Virtualization_Diagram.png|right|275px|A "computer running in a computer"}}
In [[Computers|Computing]], '''Virtualization''' is a broad term that usually refers to the abstraction of resources on a computer.  Usually this is accomplished using either a [[virtual machine]] or an [[operating system]] that has tools to enable virtual environments to run inside it.  
In [[Computers|computing]], '''virtualization''' is a broad term that usually refers to the abstraction of resources on a computer.  Usually this is accomplished using either a [[virtual machine]] or an [[operating system]] that has tools to enable virtual environments to run inside it.  


A simple way of looking at virtualization is that you run a "computer in a computer." As a simple example of this, you can run a Nintendo emulator on a computer running Linux, Windows or Mac OS, allowing you to play games originally designed to run on a Nintendo Entertainment System (NES) on your computer. This is one example of virtualization - you're running a "virtual" NES on your ([[Intel]] [[x86]]) computer.
A simple way of looking at virtualization is that you run a "computer in a computer." As a simple example of this, you can run a Nintendo emulator on a computer running Linux, Windows or Mac OS, allowing you to play games originally designed to run on a Nintendo Entertainment System (NES) on your computer. This is one example of virtualization - you're running a "virtual" NES on your ([[Intel]] [[x86]]) computer.


Terms used in this article refer to 'guests' and a 'host.' The host system is what runs the software that makes virtualization possible.  A guest is an operating system that runs inside a host.
Terms used in this article refer to 'guests' and a 'host.' The host system is what runs the software that makes virtualization possible.  A guest is an operating system that runs inside a host. The terms are blurred; a host can itself be a virtual machine.


There are several distinct types of virtualization. A description of several common ways of implementing virtualization follows.
There are several distinct types of virtualization. A description of several common ways of implementing virtualization follows.


==Full Virtualization==
==Full virtualization==
Where the virtualization software being used completely encapsulates its guests - the guests are unaware that they are running on top of another host. This can have a negative impact on performance, but may be the only option for older operating systems that are virtualized, because they don't have the capability to be "host aware" as guests are in Paravirtualization.
Where the virtualization software being used completely encapsulates its guests - the guests are unaware that they are running on top of another host. This can have a negative impact on performance, but may be the only option for older operating systems that are virtualized, because they don't have the capability to be "host aware" as guests are in [[#paravirtualization|paravirtualization]].


==OS Level Virtualization==
==Operating system level vrtualization==
Generally OS level virtualization involves one running [[kernel]] in a system, but several virtual environments running inside that kernel. [[OpenVZ]], [[User Mode Linux]] and [[Solaris Zone|Solaris Zones]] are examples of virtualization solutions that utilize OS level virtualization.
Generally OS level virtualization involves one running [[kernel]] in a system, but several virtual environments running inside that kernel. [[OpenVZ]], [[User Mode Linux]] and [[Solaris Zone|Solaris Zones]] are examples of virtualization solutions that utilize OS level virtualization.


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[[Xen]], [[VMware]] and Microsoft Hyper-V are examples of software products that implement paravirtualization.  
[[Xen]], [[VMware]] and Microsoft Hyper-V are examples of software products that implement paravirtualization.  
===Xen===
{{main|Xen}}
Xen.org is an [[open source]] community that supports the various Xen software. <ref name=WIX>{{citation
| title = What is Xen?
| url = http://www.xen.org/files/Marketing/WhatisXen.pdf
| publisher = Xen.org
}}</ref>  Major components of Xen are:
*Hypervisor
*Domain 0 Guest (Dom0)
*Domain Guests (DomU)
The Xen hypervisor runs directly on the hardware and becomes the interface for all hardware requests
such as CPU, I/O, and disk for the guest operating systems. By separating the guests from the
hardware, the Xen hypervisor is able to run multiple operating systems securely and independently.
"The Domain 0 Guest referred to as Dom0 is launched by the Xen hypervisor during initial system
start-up and can run any operating system except Windows. The Dom0 has unique privileges to access
the Xen hypervisor that is not allocated to any other Domain Guests. These privileges allow it to
manage all aspects of Domain Guests such as starting, stopping, I/O requests, etc. A system
administrator can log into Dom0 and manage the entire computer system."


"The Domain Guests referred to as DomUs are launched and controlled by the Dom0 and
independently operate on the system. These guests are either run with a special modified operating
system referred to as paravirtualizion or un-modified operating systems leveraging special
virtualization hardware (Intel VT and AMD-V) referred to as [[hardware virtual machine]] (HVM)."
To run on Xen,  [[Microsoft Windows]] requires a HVM Guest environment
===VMware===
===Hyper-V===
==Virtual Machines built in to Operating Systems==
==Virtual Machines built in to Operating Systems==
For [[backwards compatibility]], newer operating systems use virtualization to support older software products that otherwise would have to be rewritten in order to run.
For [[backwards compatibility]], newer operating systems use virtualization to support older software products that otherwise would have to be rewritten in order to run.


Newer versions of Microsoft Windows (those based on the [[Microsoft Windows|Windows NT Core]]) automatically start a behind-the-scenes built-in virtual machine called NTVDM (the NT Virtual DOS Machine) when DOS programs are run. The NTVDM runs DOS in a virtual machine on top of Windows.  This can be observed by going to Start -> Run, typing in command.com and hitting "OK". If you run Task Manager, you can also see the NTVDM.EXE process running.
Newer versions of Microsoft Windows (those based on the [[Microsoft Windows|Windows NT Core]]) automatically start a behind-the-scenes built-in virtual machine called NTVDM (the NT Virtual DOS Machine) when DOS programs are run. The NTVDM runs DOS in a virtual machine on top of Windows.  This can be observed by going to Start -> Run, typing in command.com and hitting "OK". If you run Task Manager, you can also see the <code>NTVDM.EXE</code> process running.


Another example of virtual machine implementation is in versions of [[Apple Inc|Apple]]'s [[Mac OS X]].  As with Windows NT, OS X was a complete redesign from scratch, and programs written for its predecessor OS 9 could not run natively. A virtual machine called the [[Blue box]] was created to run a full copy of OS 9 on top of OS X, in order to allow older programs to execute. When Apple changed their hardware from the [[PowerPC]] architecture to an Intel [[x86]]-based system architecture, the blue box was deprecated.
Another example of virtual machine implementation is in versions of [[Apple Inc|Apple]]'s [[Mac OS X]].  As with Windows NT, OS X was a complete redesign from scratch, and programs written for its predecessor OS 9 could not run natively. A virtual machine called the [[Blue box]] was created to run a full copy of OS 9 on top of OS X, in order to allow older programs to execute. When Apple changed their hardware from the [[PowerPC]] architecture to an Intel [[x86]]-based system architecture, the blue box was deprecated.

Revision as of 14:28, 28 February 2010

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A "computer running in a computer"

In computing, virtualization is a broad term that usually refers to the abstraction of resources on a computer. Usually this is accomplished using either a virtual machine or an operating system that has tools to enable virtual environments to run inside it.

A simple way of looking at virtualization is that you run a "computer in a computer." As a simple example of this, you can run a Nintendo emulator on a computer running Linux, Windows or Mac OS, allowing you to play games originally designed to run on a Nintendo Entertainment System (NES) on your computer. This is one example of virtualization - you're running a "virtual" NES on your (Intel x86) computer.

Terms used in this article refer to 'guests' and a 'host.' The host system is what runs the software that makes virtualization possible. A guest is an operating system that runs inside a host. The terms are blurred; a host can itself be a virtual machine.

There are several distinct types of virtualization. A description of several common ways of implementing virtualization follows.

Full virtualization

Where the virtualization software being used completely encapsulates its guests - the guests are unaware that they are running on top of another host. This can have a negative impact on performance, but may be the only option for older operating systems that are virtualized, because they don't have the capability to be "host aware" as guests are in paravirtualization.

Operating system level vrtualization

Generally OS level virtualization involves one running kernel in a system, but several virtual environments running inside that kernel. OpenVZ, User Mode Linux and Solaris Zones are examples of virtualization solutions that utilize OS level virtualization.

Paravirtualization

A very simple illustration of several virtual machines running on top of a host (called the dom0 in this example)

When several 'virtual machines' run on top of a 'host' operating system this is known as paravirtualization. If a guest is completely virtualized and is unaware that it is in fact running in a VM, this can have a performance impact. Certain [[Linux] [kernel|kernels]] have been created that are "virtuzliation aware" for example, and they run faster in a VM because they have been optimized to run in a virtual machine.

When an operating system runs inside a virtual machine in this way it runs a completely separate kernel, and in fact can be an entirely different operating system. There are real world examples of virtual machines running Microsoft Windows that run on top of a Linux Xen host, for example. The reverse is also possible - Linux can run inside a virtual machine that runs on top of Windows Server for example.

Microsoft's flagship virtualization platform, Hyper-V, supports running Linux Xen guests. Currently only SUSE Linux Enterprise Server version 10 is fully supported.[1]

Xen, VMware and Microsoft Hyper-V are examples of software products that implement paravirtualization.

Xen

For more information, see: Xen.

Xen.org is an open source community that supports the various Xen software. [2] Major components of Xen are:

  • Hypervisor
  • Domain 0 Guest (Dom0)
  • Domain Guests (DomU)

The Xen hypervisor runs directly on the hardware and becomes the interface for all hardware requests such as CPU, I/O, and disk for the guest operating systems. By separating the guests from the hardware, the Xen hypervisor is able to run multiple operating systems securely and independently.

"The Domain 0 Guest referred to as Dom0 is launched by the Xen hypervisor during initial system start-up and can run any operating system except Windows. The Dom0 has unique privileges to access the Xen hypervisor that is not allocated to any other Domain Guests. These privileges allow it to manage all aspects of Domain Guests such as starting, stopping, I/O requests, etc. A system administrator can log into Dom0 and manage the entire computer system."

"The Domain Guests referred to as DomUs are launched and controlled by the Dom0 and independently operate on the system. These guests are either run with a special modified operating system referred to as paravirtualizion or un-modified operating systems leveraging special virtualization hardware (Intel VT and AMD-V) referred to as hardware virtual machine (HVM)." To run on Xen, Microsoft Windows requires a HVM Guest environment

VMware

Hyper-V

Virtual Machines built in to Operating Systems

For backwards compatibility, newer operating systems use virtualization to support older software products that otherwise would have to be rewritten in order to run.

Newer versions of Microsoft Windows (those based on the Windows NT Core) automatically start a behind-the-scenes built-in virtual machine called NTVDM (the NT Virtual DOS Machine) when DOS programs are run. The NTVDM runs DOS in a virtual machine on top of Windows. This can be observed by going to Start -> Run, typing in command.com and hitting "OK". If you run Task Manager, you can also see the NTVDM.EXE process running.

Another example of virtual machine implementation is in versions of Apple's Mac OS X. As with Windows NT, OS X was a complete redesign from scratch, and programs written for its predecessor OS 9 could not run natively. A virtual machine called the Blue box was created to run a full copy of OS 9 on top of OS X, in order to allow older programs to execute. When Apple changed their hardware from the PowerPC architecture to an Intel x86-based system architecture, the blue box was deprecated.

References