TOP 7 TYPES OF VIRTUALIZATION

There are various types of virtualization, depending on the type of application to use. 

1. Hardware Virtualization

 

One of the important types of virtualization is hardware virtualization  which operates on the basis of  a single and independent section of hardware and  is framed with the help of several tiny hardware sections or servers, which adds various physical servers into virtual servers. In hardware virtualization, Each small server may entertain a virtual machine, in hardware virtualization. The prime benefit of hardware virtualization is to improve the processing power as a result of expanded employment of hardware and application uptime. 

2. Software Virtualization

 

It is one of the types of virtualization which is essentially formed to remove various applications from the underlying software and operating system of a host machine. It is also used to watch how a novice application interacts with current stack earlier than with a real-time toolkit. With the help of software virtualization, users can create a copy of their existing configuration. Its data is then used to test new applications, software updates, and many more. 

3. Server Virtualization

 

The biggest benefit offered by virtualization is server virtualization. Under this, companies use one server in order to support multiple functions as each server is independent of the other, so running a software on one won’t affect the server of another. Server virtualization permits users to redistribute the resources to utilize them more efficiently. 

4. Desktop Virtualization

 

For any IT executive, it’s a common mode of virtualization.  Desktop virtualization allows users to access their desktops from anywhere (any device or location) as their desktops are stored at a remote server. One of the best examples of desktop virtualization can be seen globally during the worldwide lockdown. Tons of employees have worked remotely that time due to the possibility of working remotely.

 

5. Memory Virtualization

 

With the use of memory virtualization, physical memory is assembled over various servers into a unified virtualization memory space that provides the benefit of enlarged adjacent working memory. For instance, Microsoft Windows OS allows a segment of storage disk to perform as an extension of RAM. To disengage memory from the server, it introduces the mode in order to deliver a shared, delivered or networked function. 

 

6. Storage Virtualization

 

With storage virtualization, various  physical storage devices can be combined that act as a single storage device and people can access them from multiple locations. Even without informing from where the information is taken, this permits devices, joint servers, and applications to access information from a centralized dashboard. Various benefits are offered by this single storage such as integrated storage across storage devices having huge potential, diminishing downtime, load harmoning and optimized performance, etc.

7. Data Virtualization

 

In today’s world, data is gathered by advanced enterprises over various locations,  ranging from cloud on-premise hardware like Cloud Computing to software systems, from several applications through multiple file formats. In simple terms, data virtualization enables any application to access the data, in any data location. A software layer is formed by a data virtualization tool in between the applications that access data and the systems that save data.