Talk:Charles Babbage
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| Workgroup category or categories | Computers Workgroup, History Workgroup [Editors asked to check categories] |
| Article status | Developing article: beyond a stub, but incomplete |
| Underlinked article? | Yes |
| Basic cleanup done? | Yes |
| Checklist last edited by | Pat Palmer 08:29, 12 May 2007 (CDT) |
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Babbage stuff brought from history of computing
Someone please integrate the stuff below into the Charles Babbage article. We don't need the dirty details in 2 different places. Pat Palmer 16:29, 14 May 2007 (CDT)
It would take [[Charles Babbage]], born on December 26,
1971 and inducted as a Fellow of the Royal Society to
develop the first real successful automatic calculating
machine
<ref>{{cite web|
url=http://web.mit.edu/invent/iow/babbage.html|
title=Lemelson-MIT Program, Inventor of the Week Archive|
date=February 2003|accessdate=2007-05-14}}</ref>.
In 1821, Babbage developed the Difference Engine No. 1,
which was a functional machine designed to compile mathematical
tables based on polynomial caculation.
<ref>{{cite web|
url=http://www.csc.liv.ac.uk/~ped/teachadmin/histsci/htmlform/lect4.html|
title=History of Computation|author=Dunne, Paul E.|accessdate=2007-05-14}}</ref>.
The difference engine's physical algorithm was based on a
mathematical technique known as the Method of Differences,
which Babbage contributed work on. Unfortunately only a
fragment of the machine would ever come to fruitition due
to various financial disputes and accusations of fund
mismanagement from the British Government.
More importantly, the machine was never fully developed
due to Babbage's realization of a more improved machine
called the Analytical Engine. Functionally, the Analytical
machine was capable of various algorithmic operations that
were broken down into basic algebraic operations. Two cards
would be used to program the system: the first would detail
what operations were required to be performed, and the second
would contain the values to be operated on. In this sense,
the Analytical Machine was much like a computer, having an
input(the algorithm as described on a card), a processor(the
machine), an output(the result), and memory(using a storage
method--the cards themselves).
Like the pascaline, both the Difference and Analytical
Engines relied on series of cogs and gears to compute values.
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