Engineering:Reeves Electronic Analog Computer
REAC 100 owned by NASA | |
Manufacturer | Reeves Instrument Corporation |
---|---|
Release date | 1946 |
Discontinued | 1965 |
The Reeves Electronic Analog Computer (commonly shortened REAC) was a family of early analog computers produced in the United States by Reeves Instrument Corporation from the 1940s through the 1960s.
History
Origins
In the 1940s, Reeves Instrument Corporation began developing ideas for a digital computation machine. They hired mathematician Samuel Lubkin, of the original team who designed the UNIVAC, to lead the project. The original proposal was to build a machine called the REEVAC, which was to have been based on the design of the EDVAC machine, which Lubkin had also done design work on. For unknown reasons, Reeves decided to scrap this approach, and Lubkin left the company for a job with the National Bureau of Standards (the US government organization later renamed the National Institute of Standards and Technology).[1]
Reeves then decided to move forward with an analogue computer instead. In 1946, the Office of Naval Research launched a project code named Project Cyclone at Reeves to develop a general purpose analogue computing machine to further Naval objectives — it is unclear if this was the cause of Reeves's change of direction or a consequence.[2] This was the beginning of a 20-year partnership between Reeves and the Navy. For the entire 20-year duration of Project Cyclone, Reeves would continually furnish the Navy with the most recent REAC model.[1]
Commercial production
In 1948, Reeves began putting the REAC machine into commercial production. The original price was USD $14,320 for the machine itself, but fully loaded with all the necessary peripherals it cost USD $37,000 (about USD $425,000 in 2021 dollars). By 1951, there were more than sixty REAC machines in use at universities, private (usually engineering) companies, and government and military institutions.[3][4] Today the REAC is credited with proving that a general-purpose analog computer could be a viable commercial product.[1]
Notable early adopters included the following:[1][5]
- Naval Air Missile Test Center (now the Pacific Missile Test Center)
- United States Naval Research Laboratory
- RAND Corporation
- North American Aviation
- Applied Physics Laboratory
- University of Minnesota
- Ames Research Center at NASA
Uses
REAC computers played a role in the development of many military projects, such as the Ryan X-13 Vertijet.[6] A REAC was the first computer at Naval Air Weapons Station China Lake, and was instrumental in running simulations in development of the first anti-radiation missile.[7][8] It also was used in the Aeronautical Computer Laboratory at Naval Air Warfare Center Warminster.[9]
Hardware
The machine as it arrived from the manufacturer consisted of several cabinets with connecting cables, and was described as "essentially an Erector Set whose pieces are electronic or electro-mechanical parts."[10]
The average runtime for single problem was about one minute.[1]
Models
There were seven models produced during the life of the system:
- REAC 100 (1947)
- REAC 200 (1952)
- REAC 300 (1953)
- REAC 400 (1956)
- REAC 500 (1963)
- REAC 550 (1964)
- REAC 600 (1965)
External links
References
- ↑ 1.0 1.1 1.2 1.3 1.4 Small, James B. (2013) (in English). The Analogue Alternative: The Electronic Analogue Computer in Britain and the USA, 1930-1975. Taylor & Francis. ISBN 9781134699025. https://www.google.com/books/edition/The_Analogue_Alternative/71ayYLt_1MkC. Retrieved 2021-08-11.
- ↑ Small, James S. (1998). "Computer, Electronic Analog" (in English). Instruments of Science: An Historical Encyclopedia. Science Museum, London. pp. 141. ISBN 0815315619. https://www.google.com/books/edition/Instruments_of_Science/1AsFdUxOwu8C. Retrieved 2021-08-16.
- ↑ T. B., Haley (May 1952). "Training Devices for Combat Realism" (in English). Army Information Digest (United States Department of the Army) 7 (5): 26. https://www.google.com/books/edition/Army_Information_Digest/-gYioTG-3FcC. Retrieved 2021-08-16.
- ↑ "Invisible Jet Fighter Makes Test Flight" (in English). Air Force Magazine: 20-21. January 1954. https://www.google.com/books/edition/Air_Force_Magazine/I1jdZ3m2uFgC. Retrieved 2021-08-16.
- ↑ Bugos, Glenn E. (2010). "Supercomputing" (in English). Atmosphere of Freedom: 70 Years at the NASA Ames Research Center. NASA History Division. pp. 213. https://www.google.com/books/edition/Atmosphere_of_Freedom/V7Op8QJPosAC. Retrieved 2021-08-16.
- ↑ (in English) Alternative Computers. Time Life. 1989. pp. 24. ISBN 9780809457465. https://www.google.com/books/edition/Alternative_Computers/iLZQAAAAYAAJ. Retrieved 2021-08-16.
- ↑ Martin, Wallace T. (2011) (in English). Arming the Fleet, 1943-2011: Providing Our Warfighters the Decisive Advantage (3 ed.). Naval Air Warfare Center Weapons Division. https://www.google.com/books/edition/Arming_the_Fleet_1943_2011/piJe0NWhpWMC. Retrieved 2021-08-16.
- ↑ Lawson, Cliff (2017) (in English). The Station Comes of Age: Satellites, Submarines, and Special Operations in the Final Years of the Naval Ordnance Test Station, 1959-1967. History of the Navy at China Lake, California. 4. Naval Air Warfare Center Weapons Division. pp. 184. ISBN 9780160939709. https://www.google.com/books/edition/The_Station_Comes_of_Age/BbW6amt7ywkC. Retrieved 2021-08-16.
- ↑ United States House Committee on Government Operations (1959) (in English). Organization and management of missile programs. United States Government Printing Office. pp. 446. https://www.google.com/books/edition/Organization_and_Management_of_Missile_P/L2R0-e0gBq8C. Retrieved 2021-08-16.
- ↑ Ware, Willis H.; Chalk, Peter; Warnes, Richard (2008) (in English). RAND and the Information Evolution: A History in Essays and Vignettes. RAND Corporation. ISBN 9780833048165. https://www.google.com/books/edition/RAND_and_the_Information_Evolution/KKqwb277mDMC?hl=en&gbpv=0. Retrieved 2021-08-11.
Original source: https://en.wikipedia.org/wiki/Reeves Electronic Analog Computer.
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