SEAC (computer)

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SEAC
SEACComputer 020.jpg
SEAC 1n 1950
Developer Samuel N. Alexander and team
Manufacturer U.S. National Bureau of Standards (NBS)
Release date1950;73 years ago (1950)
Units sold1
CPU @ 1 MHz
Memory512 words, with each being 45 bits in size (64 acoustic delay lines)
Mass3,000 pounds (1.5 short tons; 1.4 t) (Central Machine)
SEAC's "last printout," November 1954. However SEAC was reassembled successfully and ran for another ten years until its dismantling in 1964. Printout reads: WIPE YOUR EYE5...... I GO AWAY .%...........- SEACComputer 043.jpg
SEAC's "last printout," November 1954. However SEAC was reassembled successfully and ran for another ten years until its dismantling in 1964. Printout reads: WIPE YOUR EYE5...... I GO AWAY .%...........-

SEAC (Standards Eastern Automatic Computer [1] or Standards Electronic Automatic Computer) [2] was a first-generation electronic computer, built in 1950 by the U.S. National Bureau of Standards (NBS) and was initially called the National Bureau of Standards Interim Computer, because it was a small-scale computer designed to be built quickly and put into operation while the NBS waited for more powerful computers to be completed (the DYSEAC). The team that developed SEAC was organized by Samuel N. Alexander. [3] SEAC was demonstrated in April 1950 and was dedicated in June 1950; [4] [5] [6] it is claimed to be the first fully operational stored-program electronic computer in the US. [7]

Contents

Description

Based on EDVAC, SEAC used only 747 vacuum tubes (a small number for the time) eventually expanded to 1,500 tubes. It had 10,500 germanium diodes which performed all of the logic functions (see the article diode–transistor logic for the working principles of diode logic), later expanded to 16,000 diodes. It was the first computer to do most of its logic with solid-state devices. The tubes were used for amplification, inversion and storing information in dynamic flip-flops. [8] The machine used 64 acoustic delay lines to store 512 words of memory, with each word being 45  bits in size. The clock rate was kept low (1  MHz).

The computer's instruction set consisted of only 11 types of instructions: fixed-point addition, subtraction, multiplication, and division; comparison, and input & output. It eventually expanded to 16 instructions.

The addition time was 864  microseconds and the multiplication time was 2,980 microseconds (i.e. close to 3 milliseconds).

Weight: 3,000 pounds (1.5 short tons; 1.4 t) (central machine). [2]

Applications

On some occasions SEAC was used by a remote teletype. This makes it one of the first computers to be used remotely. With many modifications, it was used until 1964. [9] Some of the problems run on it dealt with:

See also

Related Research Articles

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References

  1. "1950 | Timeline of Computer History | Computer History Museum".
  2. 1 2 1955 BRL report
  3. "Obituary: Samuel Alexander, NBS Senior Research Fellow". Physics Today. 21 (4): 131. April 1968. doi:10.1063/1.3034910. Archived from the original on 2014-10-24.
  4. Lee, John A. N.; Lee, J. A. N. (1995). International Biographical Dictionary of Computer Pioneers. Taylor & Francis. p. 237. ISBN   9781884964473.
  5. "3. SEAC (Formerly called NBS Interim Computer)". Digital Computer Newsletter. 2 (3): 1–2. 1950-08-01.
  6. News - National Bureau of Standards 1950, p. 239.
  7. Kirsch, Russell (1 Sep 2000). "Computer Development at the National Bureau of Standards". NIST Special Publication. 958: 86–89. Retrieved 23 May 2018.
  8. Glen G. Jr. Langdon (2012). Logic Design: A Review Of Theory And Practice. Elsevier. p. 7. ISBN   978-0323160452.
  9. "COMPUTING CENTERS: 2. National Bureau of Standards, SEAC Retirement, Washington, D. C. 20234". Digital Computer Newsletter. 16 (3): 3–4. Jul 1964. Archived from the original on June 2, 2018.
  10. "ARTICLES: City Traffic Simulated by Computer" (PDF). Computers and Automation. XI (5): 23–26. May 1962.
  11. "Computer simulation of street traffic". NBS Technical Notes. www.gpo.gov. January 1, 1961: 1, 5, 10–11.{{cite journal}}: Cite journal requires |journal= (help)
  12. Metallography--past, Present, and Future: 75th Anniversary Volume, Issue 1165, George F. Vander Voort, p.14

Further reading

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