Hard disk

The invention: A large-capacity, permanent magnetic storage device
built into most personal computers.
The people behind the invention:
Alan Shugart (1930- ), an engineer who first developed the
floppy disk
Philip D. Estridge (1938?-1985), the director of IBM’s product
development facility
Thomas J. Watson, Jr. (1914-1993), the chief executive officer of
IBM
The Personal Oddity
When the International Business Machines (IBM) Corporation
introduced its first microcomputer, called simply the IBM PC (for
“personal computer”), the occasion was less a dramatic invention
than the confirmation of a trend begun some years before. A number
of companies had introduced microcomputers before IBM; one
of the best known at that time was Apple Corporation’s Apple II, for
which software for business and scientific use was quickly developed.
Nevertheless, the microcomputer was quite expensive and
was often looked upon as an oddity, not as a useful tool.
Under the leadership of Thomas J. Watson, Jr., IBM, which had
previously focused on giant mainframe computers, decided to develop
the PC. A design team headed by Philip D. Estridge was assembled
in Boca Raton, Florida, and it quickly developed its first,
pacesetting product. It is an irony of history that IBM anticipated
selling only one hundred thousand or so of these machines, mostly
to scientists and technically inclined hobbyists. Instead, IBM’s product
sold exceedingly well, and its design parameters, as well as its
operating system, became standards.
The earliest microcomputers used a cassette recorder as a means
of mass storage; a floppy disk drive capable of storing approximately
160 kilobytes of data was initially offered only as an option.
While home hobbyists were accustomed to using a cassette recorder for storage purposes, such a system was far too slow and awkward
for use in business and science. As a result, virtually every IBM PC
sold was equipped with at least one 5.25-inch floppy disk drive.
Memory Requirements
All computers require memory of two sorts in order to carry out
their tasks. One type of memory is main memory, or random access
memory (RAM), which is used by the computer’s central processor
to store data it is using while operating. The type of memory used
for this function is built typically of silicon-based integrated circuits
that have the advantage of speed (to allow the processor to fetch or
store the data quickly), but the disadvantage of possibly losing or
“forgetting” data when the electric current is turned off. Further,
such memory generally is relatively expensive.
To reduce costs, another type of memory—long-term storage
memory, known also as “mass storage”—was developed. Mass
storage devices include magnetic media (tape or disk drives) and
optical media (such as the compact disc, read-only memory, or CDROM).
While the speed with which data may be retrieved from or
stored in such devices is rather slow compared to the central processor’s
speed, a disk drive—the most common form of mass storage
used in PCs—can store relatively large amounts of data quite inexpensively.
Early floppy disk drives (so called because the magnetically
treated material on which data are recorded is made of a very flexible
plastic) held 160 kilobytes of data using only one side of the
magnetically coated disk (about eighty pages of normal, doublespaced,
typewritten information). Later developments increased
storage capacities to 360 kilobytes by using both sides of the disk
and later, with increasing technological ability, 1.44 megabytes (millions
of bytes). In contrast, mainframe computers, which are typically
connected to large and expensive tape drive storage systems,
could store gigabytes (millions of megabytes) of information.
While such capacities seem large, the needs of business and scientific
users soon outstripped available space. Since even the mailing
list of a small business or a scientist’s mathematical model of a
chemical reaction easily could require greater storage potential than early PCs allowed, the need arose for a mass storage device that
could accommodate very large files of data.
The answer was the hard disk drive, also known as a “fixed disk
drive,” reflecting the fact that the disk itself is not only rigid but also
permanently installed inside the machine. In 1955, IBM had envisioned
the notion of a fixed, hard magnetic disk as a means of storing
computer data, and, under the direction of Alan Shugart in the
1960’s, the floppy disk was developed as well.
As the engineers of IBM’s facility in Boca Raton refined the idea
of the original PC to design the new IBM PC XT, it became clear that
chief among the needs of users was the availability of large-capability
storage devices. The decision was made to add a 10-megabyte
hard disk drive to the PC. On March 8, 1983, less than two years after
the introduction of its first PC, IBM introduced the PC XT. Like
the original, it was an evolutionary design, not a revolutionary one.
The inclusion of a hard disk drive, however, signaled that mass storage
devices in personal computers had arrived.
Consequences
Above all else, any computer provides a means for storing, ordering,
analyzing, and presenting information. If the personal computer
is to become the information appliance some have suggested
it will be, the ability to manipulate very large amounts of data will
be of paramount concern. Hard disk technology was greeted enthusiastically
in the marketplace, and the demand for hard drives has
seen their numbers increase as their quality increases and their
prices drop.
It is easy to understand one reason for such eager acceptance:
convenience. Floppy-bound computer users find themselves frequently
changing (or “swapping”) their disks in order to allow programs
to find the data they need. Moreover, there is a limit to how
much data a single floppy disk can hold. The advantage of a hard
drive is that it allows users to keep seemingly unlimited amounts of
data and programs stored in their machines and readily available.
Also, hard disk drives are capable of finding files and transferring
their contents to the processor much more quickly than a
floppy drive. A user may thus create exceedingly large files, keep them on hand at all times, and manipulate data more quickly than
with a floppy. Finally, while a hard drive is a slow substitute for
main memory, it allows users to enjoy the benefits of larger memories
at significantly lower cost.
The introduction of the PC XT with its 10-megabyte hard drive
was a milestone in the development of the PC. Over the next two decades,
the size of computer hard drives increased dramatically. By
2001, few personal computers were sold with hard drives with less
than three gigabytes of storage capacity, and hard drives with more
than thirty gigabytes were becoming the standard. Indeed, for less
money than a PC XT cost in the mid-1980’s, one could buy a fully
equipped computer with a hard drive holding sixty gigabytes—a
storage capacity equivalent to six thousand 10-megabyte hard drives.