Fact Sheet on "Simon"
Posted: Tue Dec 11, 2012 11:48 pm
Edmund Berkeley first described Simon in his 1949 book, "Giant Brains, or Machines That Think" and went on to publish plans to build Simon in a series of Radio Electronics issues in 1950 and 1951.
Simon touched such pioneering computer scientists as Ivan Sutherland, who went on to influence development of interactive graphical personal computers.
By 1959, over 400 Simon plans were sold.
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Public Information Office
Columbia University May 18, 1950
Fact Sheet on "Simon"
What is "Simon"? A very simple model, mechanical brain -- the smallest complete mechanical brain in existence. The machine was conceived by Edmund C. Berkeley, president of E.C. Berkeley and Associates actuarial consultants (of 60 State Street, Boston, and 36 West 11th Street, New York). Mr. Berkeley described the machine, before he had it built, in his book, "Giant Brains, or Machines That Think," which was published last November. In the book, he wrote:
"We shall now consider how we can design a very simple machine that will think.. Let us call it Simon, because of its predecessor, Simple Simon... Simon is so simple and so small in fact that it could be built to fill up less space than a grocery-store box; about four cubic feet....It may seem that a simple model of a mechanical brain like Simon is of no great practical use. On the contrary, Simon has the same use in instruction as a set of simple chemical experiments has: to stimulate thinking and understanding, and to produce training and skill. A training course on mechanical brains could very well include the construction of a simple model mechanical brain, as an exercise.
Who built "Simon"? The machine represents the combined efforts of a skilled mechanic, William A. Porter, of West Medford, Mass., and two Columbia University graduate students of electrical engineering, Robert A. Jensen (of 76-19 175th Street Flushing, L.I., N.Y.) and Andrew Vall (of 4237 Judge Street, Elmhurst, L.I.,N.Y.). Porter did the basic construction, while Jensen and Vall took the machine when it was still not in working order and engineered it so that it functioned. Specifically, they
designed a switching system that made possible
the follow-through of a given problem;
set up an automatic synchronizing system;
installed a system for indicated errors due
to loss of synchronization;
re-designed completely the power supply of the
machine.
In their own words, the two students simply put to work their knowledge of electrical engineering, after mastering the mass of intricate detail with which they were presented last March, when Mr. Berkeley brought "Simon" to Columbia.
Capsule biographies: Vall, 23, received his bachelor's degree from Columbia's school of Engineering in 1949, and is working for his master's degree in electrical engineering. In June, he will join Bell Telephone Laboratories to do electronic development work. He is an Army veteran. Jensen, 25, holds a bachelor's degree from City College (1949) and is now working for his master s degree. He hopes to do development work in the computer or switching field. He is a veteran of three-and-a-half years with the Army Air Forces.
What operations does "Simon" perform? Addition, negation, greater than, and selection.
What did "Simon" Cost? About $600. The time and effort of the two Columbia students was contributed.
What makes "Simon" unique? According to Mr. Berkeley, the machine has established at least half a dozen world's records.
- It is the smallest complete mechanical brain in existence.
- It knows not more than four numbers; it can express only the number 0, 1, 2 and 3.
- It is "guaranteed to make every member of an audience feel superior to it."
- It is a mechanical brain that has cost less than $1,000.
- It can be carried around in one hand (and the power supply in the other hand).
- It can be completely understood by one man.
- It is an excellent device for teaching, lecturing and explaining.
What is the machine's future? Mr. Berkeley's answer follows:
"Simon has two futures. In first place Simon can grow. With another chassis and some wiring and engineering, the machine will be able to compute decimally, Perhaps in six months more, we may be able to have it working on real problems. In the second place, Simon may start a fad of building baby mechanical brains, similar to the hobby of building crystal radio sets that swept the country in the 1920's."
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Source :
Simon touched such pioneering computer scientists as Ivan Sutherland, who went on to influence development of interactive graphical personal computers.
By 1959, over 400 Simon plans were sold.
-------------------------------------------------------------------------------------------------------------------
Public Information Office
Columbia University May 18, 1950
Fact Sheet on "Simon"
What is "Simon"? A very simple model, mechanical brain -- the smallest complete mechanical brain in existence. The machine was conceived by Edmund C. Berkeley, president of E.C. Berkeley and Associates actuarial consultants (of 60 State Street, Boston, and 36 West 11th Street, New York). Mr. Berkeley described the machine, before he had it built, in his book, "Giant Brains, or Machines That Think," which was published last November. In the book, he wrote:
"We shall now consider how we can design a very simple machine that will think.. Let us call it Simon, because of its predecessor, Simple Simon... Simon is so simple and so small in fact that it could be built to fill up less space than a grocery-store box; about four cubic feet....It may seem that a simple model of a mechanical brain like Simon is of no great practical use. On the contrary, Simon has the same use in instruction as a set of simple chemical experiments has: to stimulate thinking and understanding, and to produce training and skill. A training course on mechanical brains could very well include the construction of a simple model mechanical brain, as an exercise.
Who built "Simon"? The machine represents the combined efforts of a skilled mechanic, William A. Porter, of West Medford, Mass., and two Columbia University graduate students of electrical engineering, Robert A. Jensen (of 76-19 175th Street Flushing, L.I., N.Y.) and Andrew Vall (of 4237 Judge Street, Elmhurst, L.I.,N.Y.). Porter did the basic construction, while Jensen and Vall took the machine when it was still not in working order and engineered it so that it functioned. Specifically, they
designed a switching system that made possible
the follow-through of a given problem;
set up an automatic synchronizing system;
installed a system for indicated errors due
to loss of synchronization;
re-designed completely the power supply of the
machine.
In their own words, the two students simply put to work their knowledge of electrical engineering, after mastering the mass of intricate detail with which they were presented last March, when Mr. Berkeley brought "Simon" to Columbia.
Capsule biographies: Vall, 23, received his bachelor's degree from Columbia's school of Engineering in 1949, and is working for his master's degree in electrical engineering. In June, he will join Bell Telephone Laboratories to do electronic development work. He is an Army veteran. Jensen, 25, holds a bachelor's degree from City College (1949) and is now working for his master s degree. He hopes to do development work in the computer or switching field. He is a veteran of three-and-a-half years with the Army Air Forces.
What operations does "Simon" perform? Addition, negation, greater than, and selection.
What did "Simon" Cost? About $600. The time and effort of the two Columbia students was contributed.
What makes "Simon" unique? According to Mr. Berkeley, the machine has established at least half a dozen world's records.
- It is the smallest complete mechanical brain in existence.
- It knows not more than four numbers; it can express only the number 0, 1, 2 and 3.
- It is "guaranteed to make every member of an audience feel superior to it."
- It is a mechanical brain that has cost less than $1,000.
- It can be carried around in one hand (and the power supply in the other hand).
- It can be completely understood by one man.
- It is an excellent device for teaching, lecturing and explaining.
What is the machine's future? Mr. Berkeley's answer follows:
"Simon has two futures. In first place Simon can grow. With another chassis and some wiring and engineering, the machine will be able to compute decimally, Perhaps in six months more, we may be able to have it working on real problems. In the second place, Simon may start a fad of building baby mechanical brains, similar to the hobby of building crystal radio sets that swept the country in the 1920's."
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