RAM
RAM (random access
memory) is the place in a computer
where the operating system,
application programs, and data in
current use are kept so that they
can be quickly reached by the
computer's processor.
RAM is much faster to read from and
write to than the other kinds of
storage in a computer, the hard
disk, floppy disk, and CD-ROM.
However, the data in RAM stays there
only as long as your computer is
running.
When you turn the computer off, RAM
loses its data. When you turn your
computer on again, your operating
system and other files are once
again loaded into RAM, usually from
your hard disk.
RAM can be compared to a person's
short-term memory and the hard disk
to the long-term memory. The
short-term memory focuses on work at
hand, but can only keep so many
facts in view at one time. If
short-term memory fills up, your
brain sometimes is able to refresh
it from facts stored in long-term
memory. A computer also works this
way. If RAM fills up, the processor
needs to continually go to the hard
disk to overlay old data in RAM with
new, slowing down the computer's
operation. Unlike the hard disk
which can become completely full of
data so that it won't accept any
more, RAM never runs out of memory.
It keeps operating, but much more
slowly than you may want it to.
How Big is RAM?
RAM is small, both in physical size
(it's stored in microchips) and in
the amount of data it can hold. It's
much smaller than your hard disk. A
typical computer may come with 256
million bytes of RAM and a hard disk
that can hold 40 billion bytes. RAM
comes in the form of "discrete"
(meaning separate) microchips and
also in the form of modules that
plug into holes in the computer's
motherboard. These holes connect
through a bus or set of electrical
paths to the processor.
The hard drive, on the other hand,
stores data on a magnetized surface
that looks like a phonograph record.
Most personal computers are designed
to allow you to add additional RAM
modules up to a certain limit.
Having more RAM in your computer
reduces the number of times that the
computer processor has to read data
in from your hard disk, an operation
that takes much longer than reading
data from RAM.
(RAM access time is in nanoseconds;
hard disk access time is in
milliseconds.)
Why Random Access?
RAM is called "random access"
because any storage location can be
accessed directly. Originally, the
term distinguished regular core
memory from offline memory, usually
on magnetic tape in which an item of
data could only be accessed by
starting from the beginning of the
tape and finding an address
sequentially.
Perhaps it should have been called "nonsequential
memory" because RAM access is hardly
random. RAM is organized and
controlled in a way that enables
data to be stored and retrieved
directly to specific locations. A
term IBM has preferred is direct
access storage or memory.
Note that other forms of storage
such as the hard disk and CD-ROM are
also accessed directly (or
"randomly") but the term random
access is not applied to these forms
of storage.
In addition to disk, floppy disk,
and CD-ROM storage, another
important form of storage is
read-only memory (ROM), a more
expensive kind of memory that
retains data even when the computer
is turned off. Every computer comes
with a small amount of ROM that
holds just enough programming so
that the operating system can be
loaded into RAM each time the
computer is turned on.
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