Vacuum Tubes to Transistors—From the Anita Mark VIII to Hewlett Packard and Wang

A collection of desktop electronic calculators in the Division of Medicine and Science at the National Museum of American History.

As early as the late 1950s, engineers at the British firm of Sumlock Comptometer Limited, a manufacturer of adding machines, imagined that electronic circuits might be used to carry out arithmetic operations in calculators that fit on a desktop.  In 1961 Sumlock began to sell the Anita Mark VII and Anita Mark VIII electronic calculators, compact vacuum tube machines that could do simple arithmetic.

By 1964 several other companies were considering the electronic calculator market, using transistorized circuits rather than tubes. These included the California manufacturer of calculating machines, Friden; Japanese consumer electronics companies selling under the trade names Sony and Sharp; and the California inventor Thomas E. Osborne, whose 1964 prototype electronic calculator would influence instrument maker  Hewlett-Packard’s first electronic calculator, the HP 9100 (1968). Also in 1964, the Massachusetts firm of Wang Laboratories announced its Wang LOCI, a “logarithmic calculating instrument.”

These early electronic calculators were large, heavy, expensive products, with keyboards patterned after calculating machines. The Anita, Friden, Sony, and Sharp calculators performed the four basic arithmetic operations of addition, subtraction, multiplication, and division. In 1966 Monroe International Corporation, a descendent of an American calculating machine company, introduced the Monroe EPIC 3000, an electronic calculator that not only performed basic arithmetic but took square roots. The same year a rival firm, SCM Marchant, offered calculators with and without the ability to take square roots.

The Wang LOCI, sold from1965, carried out all these operations at the touch of a key, and had further keys for finding squares, inverse squares, inverse square roots, and inverse logarithms. One form of this calculator, the LOCI II, had rough programming capabilities. Wang also soon brought out its Series 300 calculators, which were oriented toward business rather than scientific calculations. Other firms such as Sony would soon offer desktop machines that took square roots and had limited programming capabilities.

Those using adding machines had long relied on paper tapes to print out the results of calculations. The Monroe EPIC 3000 and the 1968 Friden 1150 calculators had printing mechanisms.

In the late 1960s and early 1970s, programmable desktop calculators came to have many of the capabilities of early computers, at a greatly reduced size and price. The HP9100, sold from 1968, offered a wide range of trigonometric, exponential, and hyperbolic functions. Wang responded with its 700 and 600 series calculators.

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HP9100 Prototype Desktop Electronic Calculator

This transistorized electronic calculator is the prototype for the first electronic calculator sold by Hewlett-Packard Company, the HP 9100.
Description
This transistorized electronic calculator is the prototype for the first electronic calculator sold by Hewlett-Packard Company, the HP 9100. The machine was notable for its ability to compute transcendental functions at the push of a button, and for the range of values that could be computed.
The prototype has a metal case painted gray. At the right center is an array of nine digit keys and a 0 bar, with clear display, enter exponent, and change sign keys above these. To the right of these keys is an array of fourteen programming keys. Left of the digit keys are keys for arithmetic operations, square roots, and shifting the position of variables within the x, y, and z registers of the calculator . The fifteen further keys to the left are for a variety of trigonometric, hyperbolic, and exponential functions.
Above these keys are four switches. The leftmost determines whether angles entered and computed are in radians or degrees. The second switch from the left determines whether the decimal point is floating or fixed. The third switch turns the power on or off. The rightmost switch sets the mode as run or program. A display and a dial that may be set between 0 and 9 are behind the keyboard and switches. At the back are a power cord and a connector.
The prototype brought together ideas of Thomas Osborne, Malcolm McMillan, and others at Hewlett-Packard. For Osborne’s earlier prototype, see 19780311.01 and 1978.0311.02. For a production model of the HP9100B, see 2012.0044.01.
Bernard M. Oliver, “How the Model 9100A Was Developed,” Hewlett-Packard Journal, September, 1968. A copy of this article is at the HP Museum website.
Location
Currently not on view
date made
ca 1966
date received
1978
maker
Hewlett-Packard Company
Osborne, Thomas E.
ID Number
1978.0311.03
accession number
1978.0311
catalog number
1978.0311.03

Hewlett-Packard 9100B Desktop Electronic Calculator

This programmable desktop electronic scientific calculator has a beige metal case, a cathode ray tube display, a keyboard with four groups of keys, and a slot for a magnetic program card.
Description
This programmable desktop electronic scientific calculator has a beige metal case, a cathode ray tube display, a keyboard with four groups of keys, and a slot for a magnetic program card. The leftmost set of 15 tan keys includes coordinate conversion, logarithmic, exponential, trigonometric, and absolute value function keys. A switch above it can be set at degrees or radians.
The set of 15 ivory and dark brown keys second from the left allows for the positioning and storage of numbers in different registers. Next to the right is a set of 20 brown and ivory keys to enter numbers and to specify machine functions. The rightmost set of 14 tan keys is used for programming.
Five hand-wound circuit boards are inside the case, and three smaller circuit boards are inside the lid. There is a white power cord. A sticker on the back of the machine reads: SERIAL NUMBER (/) 938-02147.
The Crocker Nuclear Laboratory of the University of California at Davis acquired this machine in May of 1970 for a price of $5,195.00. Funds came from the Atomic Energy Commission’s Experimental Nuclear Physics program.
For related prototypes, see the green machine of Thomas Osborne (198.0311.01, 1978.0311.02) and the prototype HP9100A (1978.0311.03).
Reference:
Accession File.
Location
Currently not on view
date made
1970
date received
2012
maker
Hewlett-Packard Company
ID Number
2012.0044.01
accession number
2012.0044
catalog number
2012.0044.01

Wang 700 Electronic Calculator

In March of 1968, An Wang saw a prototype of Hewlett-Packard’s HP9100 programmable desktop calculator. This machine reduced the task of finding many scientific functions from programming to pushing a key.
Description
In March of 1968, An Wang saw a prototype of Hewlett-Packard’s HP9100 programmable desktop calculator. This machine reduced the task of finding many scientific functions from programming to pushing a key. In response, Wang Laboratories announced plans for a new set of calculators for the scientific and engineering communities, the series 700 advanced programming calculator. The instrument came on the market in mid-1969.
A large keyboard at the front of the machine includes keys for entering digits, carrying out arithmetic operations, and finding squares, square roots, and reciprocals. A separate key enters the number pi. Another set of keys performs operations for both logarithms and exponents in base e and base 10. Special function keys above the digit keys are set for trigonometric and hyperbolic functions. A tape cassette on the right above the keyboard allows for entering programs via magnetic tape. Left of the tape drive is a Nixie tube display that shows up to twelve digits in two registers, followed by the sign of the exponent and the exponent.
A mark on the front left of the calculator reads: WANG. A metal tag at the back reads: Wang Laboratories, Inc. (/) ELECTRONIC CALCULATOR (/) MODEL NO. 700C (/) SERIAL No. 811055-C (/) TEWKSBURY, MASS. U.S.A. Marks on the rightmost column of keys confirm that is a model Wang 700C, having debugging features characteristic of that machine. It was released in 1972. A paper sticker on the right back reads: JUL 8 1970 [sic]. The July date is scribbled over one reading JUN 3. Hence the object dates from at least 1970, most probably about 1972.
Documentation received with the calculator dates from 1969, 1970, and 1972.
According to the accession file, the calculator and related materials were used by the husband of the donor. This might be Robert R. Wolf, who lived at the same addresses in New Orleans during and after `983.
Reference:
An extensive discussion of the Wang 720C advanced programming calculator is at The Old Calculator Web Museum.
Location
Currently not on view
date made
ca 1972
maker
Wang Laboratories
ID Number
1983.0171.01
catalog number
1983.0171.01
accession number
1983.0171

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