Topics In Demand
Notification
New

No notification found.

Know The Different Units Of Data Storage Capacity
Know The Different Units Of Data Storage Capacity

199

0

 

Have your limited phone storage options ever caused you to

data science

trouble on many occasions? Have you ever wondered what the most significant amount of data or information technology can store? Having infinite device storage is a dream for many, especially those who need to keep several files. You may have even considered buying a device with a greater storage capacity.

 

It makes sense that people would want devices with more storage because it enables them to have as many games, images, programs, and data as they desire. In fact, some individuals even purchase goods that allow them to purchase even more storage space. But what exactly is the data retention cap? When is it deemed excessive? What are the various phases or tiers of data storage systems? 



 

What is Data Storage?

 

Data storage is the process of conserving information and ensuring that it is as easily available as feasible through technology. In essence, it means that documents and information are saved digitally and stored for future use. While disc space provided by one or more storage devices is known as data storage capacity. It determines how much data a computer system could potentially store.

 

Data Storage Units (From Smallest to Largest)

  • Bytes

The smallest unit used to measure data capacity is the byte. It serves as the basic building block of data for computer processing and storing. Each of the eight successive binary digits that make up a single byte can either be a 0 or a 1, and they are arranged in a row.

  • Kilobytes (KB)

The second-smallest measurement for a data storage unit is a kilobyte. Although the term "kilo" usually refers to 1,000 bytes, a kilobyte commonly consists of 1,024 (210) bytes in computer science. It might also reference 1,000 bytes, depending on the situation.

  • Megabytes (MB)

Megabyte is ranked third on the list. Up to one million (220) bytes can be stored in this specific data storage capacity measurement unit. Although a megabyte is precisely 1,048,576, to be more precise. Sometimes a number will appear after the abbreviation MB when you look at apps or games in your app store. The letters MB stand for Megabytes, and the number represents how many megabytes of storage space a particular app will require.

 

  • Gigabytes (GB)

Currently, most devices have this unit as their default storage capacity. One billion (230) bytes make up a gigabyte. Precisely 1,073,741,824 bytes, to be exact. The initials GB, which stands for gigabyte, are followed by numbers in several programs and games you may find in your app store. This means that the application uses the amount of space indicated in gigabytes.

 

  • Terabytes (TB)

This specific storage unit measurement currently places a cap on hard disc capacity. One trillion (240) bytes make up a single terabyte. The exact number is 1,099,511,627,776. Since many individuals may not be aware of any other storage capacity units that are even larger than terabytes, they may believe that the terabyte is the final or the largest storage capacity unit.

 

  • Petabytes (PB)

A petabyte, which equates to 1 quadrillion (250) bytes of memory or data storage, is a unit of measurement. Any organization claims to be able to manage a unit with the largest capacity in this way. It is estimated that the total amount of data in Facebook user images is close to 1 petabyte. Each day, Google processes 20 petabytes of data.

 

  • Exabytes (EB)

The third-largest storage capacity measurement is one exabyte. The number of bytes in this particular unit is 1 quintillion (260). It contains 1 billion gigabytes to illustrate this unit's size more clearly. A petabyte is 1,000 times smaller than this unit of storage capacity. On a hard drive with 1EB of space, 341 billion three-minute MP3s can be kept.

 

  • Zettabyte (ZB)

Finally, we have reached the storage unit with the second-largest capacity. Zettabytes are 1,000 times bigger than exabytes and have 1 sextillion (270) bytes. This measure is made up of 1 billion terabytes, equal to 1 billion trillion bytes, giving you a better idea of how enormous that figure is. Currently, it is really challenging to understand the data. In order to demonstrate how big the 3ZB storage capacity actually is, 30 billion 4K movies can be stored there.

 

  • Yottabyte (YB)

The largest data storage device is now available. The theoretical storage and data volumes for future devices are measured in yottabytes (YB). There is 1 septillion (280) bytes in a single yottabyte. There is currently nothing that can be measured on a yottabyte scale. It consists of 1 trillion terabytes, or one trillion, to show how big this is. According to Paul McFedries' book Word Spy, downloading a 1 YB file would take around 86 trillion years.

 

The various metrics of data storage capacity units are listed above. Aren't they rather crazy, though? Most people probably aren't even familiar with some of the units stated above to illustrate such storage facilities' size. Even so, I sincerely hope that this article has provided you with a better understanding of the ideas behind data storage units, no matter how astounding they may have been.

 


That the contents of third-party articles/blogs published here on the website, and the interpretation of all information in the article/blogs such as data, maps, numbers, opinions etc. displayed in the article/blogs and views or the opinions expressed within the content are solely of the author's; and do not reflect the opinions and beliefs of NASSCOM or its affiliates in any manner. NASSCOM does not take any liability w.r.t. content in any manner and will not be liable in any manner whatsoever for any kind of liability arising out of any act, error or omission. The contents of third-party article/blogs published, are provided solely as convenience; and the presence of these articles/blogs should not, under any circumstances, be considered as an endorsement of the contents by NASSCOM in any manner; and if you chose to access these articles/blogs , you do so at your own risk.


© Copyright nasscom. All Rights Reserved.