1. Look through the text and divide

1. Look through the text and divide it into logical parts. Say: What do they deal with?



2. Read the text and compare it with Text II. Find out what information you have known and what additional information you can get.

BABBAGE'S DREAM COME TRUE

(1) The Harvard Mark I.A hundred years passed before a machine like the one Babbage conceived was actually built. This occurred in 1944, when Howard Aiken of Harvard University completed the Harvard Mark I Automatic Sequence Controlled Calculator.

(2) Aiken was not familiar with the Analytical Engine when he de­signed the Mark I. Later, after people had pointed out Babbage's work to him, he was amazed to learn how many of his ideas Bab­bage had anticipated.

(3) The Mark I is the closest thing to the Analytical Engine that has ever been built or ever will be. It was controlled by a punched paper tape, which played the same role as Babbage's punched cards. Like the Analytical Engine, it was basically mechanical. How­ever, it was driven by electricity instead of steam. Electricity also served to transmit information from one part of the machine to another, replacing the complex mechanical linkages that Babbage had proposed. Using electricity (which had only been a laboratory curiosity in Babbage's time) made the difference between success and failure.

(4) But, along with several other electromechanical computers built at about the same time, the Mark I was scarcely finished before it was obsolete. The electromechanical machines simply were not fast enough. Their speed was seriously limited by the time required for mechanical parts to move from one position to another. For instance, the Mark I took six seconds for a multiplication and twelve for a division; this was only five or six times faster than what a human with an old desk calculator could do.

(5) ENIAC.What was needed was a machine whose computing, control, and memory elements were completely electrical. Then the speed of operation would be limited not by the speed of mechani­cal moving parts but by the much greater speed of moving electrons.

(6) In the late 1930s, John V. Atanasoff of Iowa State College demon­strated the elements of an electronic computer. Though his work did not become widely known, it did influence the thinking of John W. Mauchly, one of the designers of ENIAC.

(7) ENIAC — Electronic Numerical Integrator and Computer — was the machine that rendered the electromechanical computers obso­lete. ENIAC used vacuum tubes for computing and memory. For control, it used an electrical plug board, like a telephone switch­board. The connections on the plug board specified the sequence of operations ENIAC would carry out.

(8) ENIAC was 500 times as fast as the best electromechanical com­puter. A problem that took one minute to solve on ENIAC would require eight to ten hours on an electromechanical machine. After ENIAC, all computers would be electronic.

(9) ENIAC was the first of many computers with acronyms for names. The same tradition gave us EDVAC, UNIVAC, JOHNIAC, ILLIAC, and even MANIAC.