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The Atanasoff–Berry Computer (ABC) was the first electronics digital computing device.Ralston, Anthony & Meek, Christopher, ed., Encyclopedia of Computer Science, First Edition, (1976) pg. 488-489, ISBN 0-88405-321-0 Conceived in 1937, the machine was capable of solving up to 29 simultaneous linear equations and was successfully tested, though its input/output mechanism was still unreliable in 1942 when its inventors left Iowa State College for World War II assignments. The ABC pioneered important elements of modern computing, including binary arithmetic and Electronics elements,Campbell-Kelly, Martin & Aspray, William, Computer: A History of the Information Machine, 1996, pg. 84, ISBN 0-465-02989-2 but its special-purpose nature and lack of a changeable, stored program distinguish it from modern computers.

John Vincent Atanasoff's and Clifford Berry's computer work was not widely known until rediscovered in the 1960s, amidst conflicting claims about the first instance of an electronic computer. The ENIAC computer is usually considered to be the first computer in the modern sense, but in 1973 a U.S. District Court invalidated the ENIAC patent and concluded that the ABC was the first "computer" (see Atanasoff–Berry Computer#Controversy).

Design and construction According to Atanasoff's account, several key principles of the Atanasoff–Berry Computer (ABC) were conceived in a sudden insight after a long nighttime drive during the winter of 1937–38. The ABC innovations included electronic computation, binary arithmetic, parallel processing, regenerative capacitor memory, and a separation of memory and computing functions. The mechanical and logic design was worked out by Dr. Atanasoff over the next year. A grant application to build a proof of concept prototype was submitted in March, 1939 to the Agronomy department which was also interested in speeding up computation for economic and research analysis. $5,000 of further funding to complete the machine came from the nonprofit Research Corporation of New York City.



The ABC was built by Dr. Atanasoff and graduate student Clifford Berry in the basement of the physics building at Iowa State College during 1939–42. The initial funds were released in September, and the 11-tube prototype was first demonstrated in October, 1939. A December demonstration prompted a grant for construction of the full-scale machine.Clark R. Mollenhoff, Atanasoff: Forgotten Father of the Computer, 1988, ISBN 0-8138-0032-3 p. 47–48 The ABC was built and tested over the next two years. It was described in a January 15, 1941 notice in the Des Moines Register. The system weighed more than seven hundred pounds (320 kg). It contained approximately 1 mile (1.6 km) of wire, 280 dual-triode vacuum tubes, 31 thyratrons, and was about the size of a desk.

It was not a Turing complete computer, which distinguishes it from more general machines, like contemporary Konrad Zuse's Z3 (1941), or later machines like the 1946 ENIAC, 1949 EDVAC, the University of Manchester School of Computer Science designs, or Alan Turing's post-War designs at National Physical Laboratory and elsewhere. Nor did it implement the stored program architecture that made practical fully general-purpose, reprogrammable computers.

The machine was, however, the first to implement three critical ideas that are still part of every modern computer:

Using binary numeral system digits to represent all numbers and data

Performing all calculations using electronics rather than wheels, ratchets, or mechanical switches

Organizing a system in which computation and computer storage are separated.

In addition, the system pioneered the use of regenerative capacitor memory, as in the DRAM still widely used today.

The memory of the Atanasoff–Berry Computer was a pair of drums, each containing 1600 capacitors that rotated on a common shaft once per second. The capacitors on each drum were organized into 32 "bands" of 50 (30 active bands and 2 spares in case a capacitor failed), giving the machine a speed of 30 additions/subtractions per second. Data was represented as 50-bit binary fixed point numbers. The electronics of the memory and arithmetic units could store and operate on 60 such numbers at a time (3000 bits).

The alternating current power line frequency of 60 Hertz was the primary clock rate for the lowest level operations.

The arithmetic logic unit were fully electronic, implemented with vacuum tubes. The family of logic gates ranged from inverters to two and three input gates. The input and output levels and operating voltages were compatible between the different gates. Each gate consisted of one inverting vacuum tube amplifier, preceded by a resistor divider input network that defined the logical function. The control logic functions, which only needed to operate once per drum rotation and therefore did not require electronic speed, were electromechanical, implemented with relays.

Although the Atanasoff–Berry Computer was an important step up from earlier calculating machines, it was not able to run entirely automatically through an entire problem. An operator was needed to operate the control switches to set up its functions, much the way Booting programs would be entered in later computers. Selection of the operation to be performed, reading, writing, converting to or from binary to decimal, or reducing a set of equations was made by front panel switches and in some cases jumpers.

There were two forms of input and output. Primary user input and output and an intermediate results output and input. The intermediate results storage allowed operation on problems too large to be handled entirely within the electronic memory. (The largest problem that could be solved without the use of the intermediate output and input was two simultaneous equations, a trivial problem.)

Intermediate results were written onto paper sheets by electrostatically modifying the resistance at 1500 locations to represent 30 of the 50 bit numbers (one equation). Each sheet could be written or read in one second. The reliability of the system was limited to about 1 error in 100,000 calculations by these units, primarily attributed to lack of control of the sheets' material characteristics. In retrospect a solution could have been to add a parity bit to each number as written. This problem was not solved by the time Atanasoff left the university for war-related work.

Primary user input was via standard punched cards and output via a front panel display.

Comparison with other early computers Function The ABC was designed for a specific purpose, the solution of systems of simultaneous linear equations. It could handle systems with up to twenty-nine equations, a difficult problem for the time. Problems of this scale were becoming common in physics, the department in which John Atanasoff worked. The machine could be fed two linear equations with up to twenty-nine variables and a constant term and eliminate one of the variables. This process would be repeated manually for each of the equations, which would result in a system of equations with one fewer variable. Then the whole process would be repeated to eliminate another variable.

==Controversy==J. Presper Eckert and John Mauchly were the first to patent a digital computing device, the ENIAC. The ABC had been examined by John Mauchly in June 1941, and Isaac Auerbach, a former student of Mauchly's, alleged that it influenced his later work on ENIAC, although Mauchly denied this (Shurkin, pg. 280-299). In 1967 Honeywell sued Sperry Rand in an attempt to break their ENIAC patents, and claiming the ABC as prior art. The United States District Court for the District of Minnesota released its judgement on October 19, 1973, finding in Honeywell v. Sperry Rand that the ENIAC patent was a derivative of John Atanasoff's invention. The decision was not appealed.

Atanasoff, however, never considered himself to be the originator of the idea of a general purpose computer until years after the ENIAC was revealed. In 1954 a patent attorney from IBM approached Atanasoff asking for his help in breaking the Mauchly patent. In a 1982 interview with Shurkin, Atanasoff said "That was the first shock I had. First time. Nobody had compared the two of us."

Campbell-Kelly and Aspray conclude: The extent to which Mauchly drew on Atanasoff's ideas remains unknown, and the evidence is massive and conflicting. The ABC was quite modest technology, and it was not fully implemented. At the very least we can infer that Mauchly saw the potential significance of the ABC and that this may have led him to propose a similar, electronic solution.

Replica The original ABC was eventually dismantled, when the University converted the basement to classrooms, and all of its pieces except for one memory drum were discarded. In 1997, a team of researchers from Ames Laboratory (located on the Iowa State campus) finished building a working replica of the Atanasoff–Berry Computer for a cost of $350,000. This replica dispelled any doubt over whether or not the ABC actually could perform the tasks it was designed to do. The new ABC is now on permanent display in the first floor lobby of the Durham Center for Computation and Communication at Iowa State University.

See also

• History of computing hardware

References

• Anthony Ralston and Edwin D. Reilly (ed), Encyclopedia of Computer Science, 3rd Ed. , 1993, Van Nostrand Reinhold, New York ISBN 0-442-27679-6
• Allan R. Mackintosh, DR. Atanasoff's Computer, Scientific American, Aug. 1988, p. 90

External links

• The Birth of the ABC
• Rebuilding the ABC
• The ENIAC patent trial
• Honeywell, Inc., Honeywell vs. Sperry Rand Records, 1846-1973

Atanasoff-Berry Computer from FOLDOC
Atanasoff-Berry Computer < computer > (ABC) An early design for a binary calculator, one of the predecessors of the digital computer. The ABC was partially constructed between 1937 ...

Atanasoff–Berry Computer - Wikipedia, the free encyclopedia
The Atanasoff–Berry Computer (ABC) was the first electronic digital computing device. [1] Conceived in 1937, the machine was capable of solving up to 29 simultaneous linear ...

Rebuilding the ABC
Reconstruction of the Atanasoff-Berry Computer (ABC) 60 years of digital computing. The Atanasoff-Berry Computer was the first electronic digital computer.

John Vincent Atanasoff from FOLDOC
Between 1937 and 1942 he built the Atanasoff-Berry Computer with Clifford Berry, at the Iowa State University. Atanasoff was born on 1903-10-04 in Hamilton, New York.

Department of Computer Science: Iowa State University
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