Let's explore the capacity of internal and external storage devices. We'll learn how optical, magnetic and semiconductor storage works, as well as identify some examples of storage devices.
What Type of Storage Do You Use?
What type of storage do you use for saving your computer work? The hard drive only? A USB drive? Do you watch movies on DVD or Blu-ray? There are many different storage methods for computers and other technology. We'll describe each of the categories of devices they fall under, the general mechanics of each and their physical characteristics.
There are three main categories of storage devices: optical, magnetic and semiconductor. The earliest of these was the magnetic device. Computer systems began with magnetic storage in the form of tapes (yes, just like a cassette or video tape). These graduated to the hard disk drive and then to a floppy disk. All magnetic media use the same general process of a read/write head magnetizing material. On a hard drive, the materials are magnetized on a glass or aluminum disk. Early storage was small. It would take many tapes to back up a mainframe system - a large system with few programs and many users - and many floppies were needed to back up significant work on a personal computer because of the low storage capacity. In the stone age of personal computers, all programs, and the work accomplished using them, were stored on 5 1/4-inch floppy disks. The storage capacity of that floppy was typically only for text and was 360 kilobytes (KB). Consider a two-page, text-only, double-spaced document is about 15 kilobytes. There was a significant period of time where the 3 1/2-inch floppy disk dominated the market. The 3 1/2-inch floppy held 1.44 megabytes (MB) of data, or roughly 750 text-only pages (750 pages is about a ream and a half of paper).
Floppy disks were an improvement on earlier magnetic storage devices.
Magnetic media transitions were made to larger capacity portable disks such as the ZIP drive. These started with 100 MB sizes and moved to 250 and 500 MB. Part of the trouble with the ZIP drive was the speed with which they developed - it was so fast that the manufacturer neglected to keep backward compatibility going. In other words, the drive hardware for the 250-MB ZIP wouldn't work for the 100 MB disk, and the 250 disk couldn't be used in the 100. We've moved light years beyond that to improved internally-mounted hard drives, which can hold at least a terabyte of information. Think of a terabyte as enough different music to listen to while working a full-time job for an entire year! And these same hard drives have become portable and lightweight enough to carry around with us, giving us the ability to bring software and data files everywhere we go.
The original magnetic media became cumbersome. Not all machines had ZIP drives installed, and frequently, a document or database large in size took up several floppies. I remember backing up an accounting system on a personal computer in the early 1990s. It took more than a dozen floppies to back up one company's data!
About that time, optical devices were starting to be marketed. An optical storage device is written and read with a laser. It is strong and can handle temperature fluctuations much better than magnetic media. Because the floppy was so inexpensive at this time, it took several years before the optical drives became affordable to the general and small business consumer.
Optical storage devices read data using a laser.
The disks used for storage (like CDs, DVDs and Blu-rays) were more expensive than floppies but held a lot of data. A compact disc (CD) can hold 700 MB of data, or roughly a little over an hour of music. It actually took until CD players became common in homes and cars for the playing of music for CDs to come down in price enough for more use by consumers. Digital video discs (DVDs) began being issued for consumer-released movies. A single-sided DVD holds 4.7 gigabytes (GB) of data, so a normal, not overly-computerized two-hour movie will fit. A movie that is heavily supplemented by technology, such as The Fellowship of the Ring, takes two full DVDs (or both sides of a DVD).
The third device, a semiconductor, has been around for a very long time. The chip, made primarily of silicon, receives a charge to hold the data. Some uses of semiconductor technology that may surprise you are flash drives (also known as thumb drives or plug 'n play), personal digital assistants, mp3 players, cell phones and digital cameras.
When considering storage capacity, we have to remember there are several construction methods utilizing semiconductor technology. RAM chips have a different make-up than flash drives, so the storage is different, but they're both made with semiconductors. RAM is still measured in gigabyte storage, but a flash drive can now hold more than a terabyte of data. The current semiconductor has a great record. A flash drive utilizes Universal Serial Bus (USB) technology, which allows for high-speed data transfer through a connection that can be used for many different types of devices. All of your current storage devices - CD, DVD, flash drives, hard drives - are extremely portable, with the flash drive leading the group. Portability is even becoming a dinosaur term when it comes to storage device functionality.
Flash drives can hold considerably more data than RAM cards.
A short sidebar here: The Internet became more accessible to businesses and consumers in the early 1990s. The leaps and bounds are for another discussion, but the place we are at now with the Internet gives us one more easily accessible and affordable storage device: cloud storage.
This storage is the user utilizing an Internet connection to store data files out there somewhere. As users, we consider cloud storage intangible. I mean, we can't see where the files are stored. However, there is definitely a tangible place your uploaded files go to. Someone is housing a server and magnetic storage that you are utilizing to back your work and play files up to. There are many free and paid places available. Most free storage sizes give you 2 GB to 10 GB storage, with the option to purchase more. You might be asking if cloud storage and cloud computing are the same. The answer is yes and no. While cloud computing does typically store files, they can be saved locally. Cloud computing refers to using an Internet-based application software to complete a given task (like word processing, a presentation or bookkeeping). Cloud storage is considered a back-up file storage place for work done on programs installed on your computer.
The rate of change has been phenomenal in the last few decades of the physical appearance, methods of work and amount of data the optical (using laser technology to write with), magnetic and semiconductor (with electrical impulses) storage devices hold. It will be incredible to see what the future holds!
After watching this lesson, you should be able to:
- Describe the characteristics of magnetic, optical, semiconductor and cloud storage
- Categorize different storage devices into their correct categories