UNIVAC
Our editors will review what you’ve submitted and determine whether to revise the article.
- In full:
- Universal Automatic Computer
- Key People:
- J. Presper Eckert
- Grace Hopper
- Related Topics:
- computer
- first-generation computer
UNIVAC, one of the earliest commercial computers. After leaving the Moore School of Electrical Engineering at the University of Pennsylvania, J. Presper Eckert, Jr., and John Mauchly, who had worked on the engineering design of the ENIAC computer for the United States during World War II, struggled to obtain capital to build their latest design, a computer they called the Universal Automatic Computer, or UNIVAC. (In the meantime, they contracted with the Northrop Corporation to build the Binary Automatic Computer, or BINAC, which, when completed in 1949, became the first American stored-program computer.) The partners delivered the first UNIVAC to the U.S. Bureau of the Census in March 1951, although their company, their patents, and their talents had been acquired by Remington Rand, Inc., in 1950. Although it owed something to experience with ENIAC, UNIVAC was built from the start as a stored-program computer, so it was very different architecturally. It used an operator keyboard and console typewriter for simple, or limited, input and magnetic tape for all other input and output. Printed output was recorded on tape and then printed by a separate tape printer.
The UNIVAC I was designed as a commercial data-processing computer, intended to replace the punched-card accounting machines of the day. It could read 7,200 decimal digits per second (it did not use binary numbers), making it by far the fastest business machine yet built. Its use of Eckert’s mercury delay lines greatly reduced the number of vacuum tubes needed (to 5,000), thus enabling the main processor to occupy a “mere” 14.5 by 7.5 by 9 feet (approximately 4.4 by 2.3 by 2.7 metres) of space. It was a true business machine, signaling the convergence of academic computational research with the office automation trend of the late 19th and early 20th centuries. As such, it ushered in the era of “Big Iron”—large, mass-produced computing equipment.