IBM 608

The IBM 608 Transistor Calculator, a plugboard-programmable unit, was the first IBM product to use transistor circuits without any vacuum tubes and is believed to be the world's first all-transistorized calculator to be manufactured for the commercial market.[1][2]:34 Announced in April 1955,[3][4] it was released in December 1957. The 608 was withdrawn from marketing in April 1959.[3]

History

The chief designer of the circuits used in the IBM 608 was Robert A. Henle, who later oversaw the development of emitter-coupled logic (ECL) class of circuits.[2]:59 The development of the 608 was preceded by the prototyping of an experimental all-transistor version of the 604. Although this was built and demonstrated in October 1954, it was not commercialized.[2]:50

To spur the adoption of transistor technology, shortly before the first IBM 608 shipped, Tom Watson directed that a date be set after which no new vacuum-tube-based products would be released.[5] This decision constrained IBM product managers, who otherwise had the latitude to select components for their products, to make the move to transistors. As a result, the successor to the IBM 650 used transistors, and it became the IBM 7070the company's first transistorized stored-program computer.[2]:50

It was similar in nature of operation to the vacuum-tube IBM 604, which had been introduced a decade earlier.[2]:34 Although the 608 outpaced its immediate predecessor, the IBM 607 by a factor of 2.5,[3] it was soon rendered obsolete by newer IBM products and only a few dozen were ever delivered.[2]:48[6]

Overview

The 608 contained more than 3,000 germanium transistors.[2]:50 The use of transistors was a significant departure from the previous IBM calculators of this line. The 608 also used magnetic core memory, but was still programmed using a control panel.[7] The main memory of the 608 could store 40 nine-digit numbers, and it had an 18-digit accumulator.[7] In raw speed terms, it could perform 4,500 additions per second, it could multiply two nine-digit numbers, yielding an 18-digit result in 11 milliseconds, and it could divide an 18-digit number by a nine-digit number to produce the nine-digit quotient in 13 milliseconds.[3] The 608 could handle 80 program steps.[7]

The 608 was supplied with a type 535 card reader/punch which had its own control plugboard.

gollark: There's Tinkegration, which adds a few somewhat reasonable modifiers, and PlusTIC, which adds lots of material support, somewhat weirdly and nonsensically, and also laser guns for some reason?
gollark: Before they made it so that toolcrafting actually involved tradeoffs.
gollark: In TiC v1.
gollark: There *used* to be.
gollark: (added locally, I mean)

See also

References
  1. Bashe, Charles J.; et al. (1986). IBM's Early Computers. MIT. p. 386.CS1 maint: ref=harv (link)
  2. Pugh, Emerson W.; Johnson, Lyle R.; Palmer, John H. (1991). IBM's 360 and early 370 systems. MIT Press. ISBN 0-262-16123-0.CS1 maint: ref=harv (link)
  3. IBM Archives: IBM 608 calculator
  4. Weik, Martin H. (1955). A survey of domestic electronic digital computing systems. Aberdeen Proving Ground, Md. pp. 61–62.
  5. Bashe 1986, p. 387
  6. Bashe 1986, p. 464
  7. Frank da Cruz, The IBM 608 Calculator, Columbia University Computing History
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.