What Is Random-Access Memory (RAM)? - Definition & History

An error occurred trying to load this video.

Try refreshing the page, or contact customer support.

Coming up next: Computer Operating Systems: Managing Hardware and Software Resources

You're on a roll. Keep up the good work!

Take Quiz Watch Next Lesson
 Replay
Your next lesson will play in 10 seconds
  • 0:00 What Is Random-Access Memory?
  • 1:35 A Bit of History
  • 2:43 Types of RAM
  • 4:29 Lesson Summary
Add to Add to Add to

Want to watch this again later?

Log in or sign up to add this lesson to a Custom Course.

Login or Sign up

Timeline
Autoplay
Autoplay
Create an account to start this course today
Try it free for 5 days!
Create An Account

Recommended Lessons and Courses for You

Lesson Transcript
Instructor: Paul Zandbergen

Paul has a PhD from the University of British Columbia and has taught Geographic Information Systems, statistics and computer programming for 15 years.

Random-access memory (RAM) is a type of storage for computer systems that makes it possible to access data very quickly in random order. The term RAM has become associated with the main memory of a computer system.

What is Random-Access Memory?

Random-access memory (RAM) is a type of computer data storage. A RAM device makes it possible to access data in random order, which makes it very fast to find a specific piece of information. Certain other types of storage are not random-access. For example, a hard disk drive and a CD will read and write data in a predetermined order. The mechanical design of these devices prescribes that data access is consecutive. This means that the time it takes to find a specific piece of information can vary greatly depending on where it is located on the disk.

RAM devices are used in computer systems as the main memory. RAM is considered volatile memory, which means that the stored information is lost when there is no power. So, RAM is used by the central processing unit (CPU) when a computer is running to store information that it needs to be used very quickly, but it does not store any information permanently.

Present-day RAM devices use integrated circuits to store information. This is a relatively expensive form of storage and the cost per unit of storage is much higher than for devices like a hard drive. However, the time to access data is so much faster for RAM that speed outweighs cost. A computer, therefore, uses a certain amount of RAM for fast-access, temporary storage of information and a much larger amount of non-random, permanent mass storage, like a hard disk drive. For example, a typical computer system may have two to eight GB (gigabytes) of RAM, while the storage capacity of the hard disk drive can be several hundred GB or even one TB (terabyte).

A Bit of History

The earliest form of RAM goes back to the very first computers in the 1940s. Magnetic-core memory relied on an array of magnetized rings. Data could be stored by magnetizing each ring individually. Each ring was wired separately, which resulted in fairly large installations. A single ring could store a single bit of data and the direction of magnetization indicated zero or one.

Technological advances resulted in smaller devices that could store more information but relied on the same principle. The memory unit in the photograph below is about 10 x 10 cm and can store 1,024 bits. That is very small by today's standards, but it was state-of-the-art in the 1960s.

Memory unit from the 1960s
Photograph of memory unit

The real breakthrough for computer memory came in the 1970s with the invention of solid-state memory in integrated circuits. This uses very small transistors, making it possible to store a lot more information on a very small area. However, this increase in memory density came at the cost of volatility: a constant power supply is needed to maintain the state of each transistor. Today's RAM still relies on this same principle.

Types of RAM

Several types of RAM are in use today. Dynamic RAM (DRAM) is by far the most widely used. It stores each bit of data using a transistor and capacitor pair. Combined, they represent a single memory cell. The capacitor holds a low or a high charge, representing a zero or one, respectively.

To unlock this lesson you must be a Study.com Member.
Create your account

Register for a free trial

Are you a student or a teacher?
I am a teacher

Unlock Your Education

See for yourself why 30 million people use Study.com

Become a Study.com member and start learning now.
Become a Member  Back

Earning College Credit

Did you know… We have over 95 college courses that prepare you to earn credit by exam that is accepted by over 2,000 colleges and universities. You can test out of the first two years of college and save thousands off your degree. Anyone can earn credit-by-exam regardless of age or education level.

To learn more, visit our Earning Credit Page

Transferring credit to the school of your choice

Not sure what college you want to attend yet? Study.com has thousands of articles about every imaginable degree, area of study and career path that can help you find the school that's right for you.

Create an account to start this course today
Try it free for 5 days!
Create An Account
Support