A vacuum tube computer is a computer system built primarily using vacuum tubes and vacuum tube logic. Vacuum tube switching replaced the earlier relay computers from the 1940s. Vacuum tube computer gained traction during the 1950s through the early 1960s. By the mid 1960s transistor computers superseded vacuum tubes.
Overview
Early relay computers were rather slow - operating at just 1Hz ((or one switching operation each second). They were cheap and readily available due to their widespread use in telephone systems. Vacuum tubes prove to be a significant improvement over electromechanical relays - operating 1000 times faster. However the performance advantage came at the cost of decreased reliability and maintainance. Tube failure was frequent, running hot and burning out rapidly.
Vacuum Tube Systems
This list is incomplete; you can help by expanding it.
System |
Designer |
Company/Institution |
Tube Count |
Year |
Notes
|
ABC |
John Vincent Atanasoff |
Iowa State University |
300 |
1940 |
|
Colossus Mark 1 |
|
Post Office Research Station |
1,600 |
1943 |
|
Colossus Mark 2 |
|
Post Office Research Station |
2,400 |
1944 |
|
ENIAC |
|
University of Pennsylvania |
17,468 |
1946 |
relays/vacuum tubes hybrid
|
SSEM |
|
Victoria University of Manchester |
|
1948 |
|
BINAC |
|
EMCC |
700 |
1949 |
|
EDSAC |
Maurice Wilkes |
University of Cambridge |
3,000 |
1949 |
|
Manchester Mark I |
|
Victoria University of Manchester |
1,300 |
1949 |
|
CSIRAC |
Trevor Pearcey |
|
2,000 |
1949 |
|
MADDIDA |
|
Northrop Aircraft |
53 |
1949 |
|
SEAC |
|
NIST |
747 |
1950 |
|
Pilot ACE |
|
National Physical Laboratory |
800 |
1950 |
|
Harvard Mark III |
Howard Aiken |
|
5,000 |
1950 |
|
SWAC |
|
NIST |
2,300 |
1950 |
|
UNIVAC 1101 |
|
ERA |
2,700 |
1950 |
|
Ferranti Mark I |
|
Ferranti |
4,050 |
1951 |
|
UNIVAC I |
|
EMCC |
5,200 |
1951 |
|
Whirlwind I |
|
MIT |
12,500 |
1951 |
|
Whirlwind II |
|
MIT |
50,000 |
1951 |
Never completed, AN/FSQ-7 a direct derivative
|
EDVAC |
|
University of Pennsylvania |
6,000 |
1951 |
|
WITCH |
|
Harwell |
828 |
1951 |
Made with 480 relays, 828 Dekatron valves for math
|
ORDVAC |
|
University of Illinois |
2,178 |
1951 |
|
LEO I |
|
|
5,936 |
1951 |
|
IAS Computer |
|
IAS |
|
1952 |
|
Model 409 |
|
Remington Rand |
800 |
1952 |
|
Harvard Mark IV |
Howard Aiken |
|
|
1952 |
|
ILLIAC I |
|
University of Illinois |
2,800 |
1952 |
|
MANIAC I |
|
Los Alamos National Laboratory |
|
1952 |
|
BESM-1 |
|
|
5,000 |
1952 |
|
701 |
|
IBM |
4,000 |
1952 |
|
BESM-2 |
|
|
4,000 |
1957 |
|
See also
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