Memory Types by Function

Figure 1-5.—Semiconductor memory chip exposed. Some of the advantages of semiconductor storage are fast internal processing speeds, high reliability, low power consumption, high density (many circuits), and low cost. However, a drawback to this type of storage is that it must have a constant power source. The term for this is volatile storage. An example of volatile storage is RAM. When you turn the power to the computer off, all the stored data is lost. Also, when there is a power failure and you do not have a backup power supply, all the stored data is lost. As mentioned, this is not the case with magnetic core storage. With core storage, the data is retained even when there is a power failure or breakdown, since data is stored in cores in the form of magnetic charges, not electric current. BUBBLE STORAGE.— Bubble memory is one of the newer storage technologies, generally used in laptops. It consists of a very thin crystal made of semiconductor material. The molecules of the crystal act as tiny magnets. Data is stored by changing the polarity of these molecules, called magnetic domains. The magnetic domains can be switched in an opposite direction by passing a current through a control circuit imprinted on top of the crystal. Like magnetic core storage, bubble memory is nonvolatile. The data is retained even when the power is turned off or there is a power failure. Unlike magnetic storage, reading from bubble memory is nondestructive. The data does not have to be regenerated; it is still present after being read. If we were to view these magnetic domains under a microscope, they would look like tiny bubbles; hence, the name, bubble memory. (See figure 1-6.) Memory Types by Function Functionally, we can classify memory by its operational features: random-access memory (RAM), Figure 1-6.—Bubble memory. 1-5