Encyclopedia > Analog computer

  Article Content

Analog computer

An analog computer is a form of computer using electronic or mechanical phenomena to model the problem being solved by using one kind of physical quantity to represent another.

Used in distinction to digital computers, in which physical or mechanical phenomena are used to construct a finite-state machine[?] which is then used to model the problem being solved. There is an intermediate group, Hybrid computers[?], in which a digital computer is used to control and organize inputs and outputs to and from attached analogue devices; for instance analogue devices might be used to help generate initial values for iterations.

Analog computers operate on real numbers and are differential, whereas digital computers are limited to computable numbers and are algebraic[?]. This means that analog computers have a larger information dimension rate[?] (see Information Theory), or potential computing domain, than do digital computers (see Gödel's incompleteness theorem). This enables analog computers to solve problems that are inextricable on digital computers.

Computer theorists often refer to the analog computer as a real computer[?] (so called because it operates on the set of real numbers), in order to circumvent popular misconceptions of analog computers.

The first analog computer was invented by Charles Babbage in 1835.

Also see signals, set theory, computability theory, differential equation, dynamical systems, chaos theory.

An example:

  • the abacus is a hand-operated digital computer
  • the slide rule is a hand-operated analog computer

Examples of analog computers:



All Wikipedia text is available under the terms of the GNU Free Documentation License

 
  Search Encyclopedia

Search over one million articles, find something about almost anything!
 
 
  
  Featured Article
Thomas a Kempis

... contents to the "Imitation of Christ" and pervaded by the same spirit are his prolonged meditation on the life and blessings of the Savior and another on the ...

 
 
 
This page was created in 21 ms