History of computing: Difference between revisions

The earliest reference of the term computer comes from the French word of the same in 1631, derived from the Latin word computare meaning "to count, to sum up". The word is formed from the two roots: com- meaning "with", and +putare meaning "to reckon"(originally "to prune")^[1].

Early Counting Aids (300 - 1400 A.D.)

Before the arrival of mechanical or analogue computing, ancient civilizations required methods to quantify properties of their livelihoods. Circa 300 B.C., the Slamis Tablet^[2], discovered on the island of Salamis in 1846, was used by the Babylonians to track numbers in their society. On this board, physical markers(indicators) were placed on the various rows or columns that represented different values. The indicators were not physically attached to the board.

Development of counting techniques lead to devices like the Roman hand abacus, which is estimated to have been created some time between 300 B.C. and 500 A.D. A notworthy advancement of the hand abacus was the implementation of permanently attached markers, which are adjusted in position to indicate value. This modification might have contributed to the evolution of the suan-pan, or Chinese abacus, in or around 1200 A.D., that closely resembles the abacus of today.

In the typical modern-day abacus, slidable markers are placed on columns of shafts(typically made from wood or metal) representing powers of ten (.0001, .001, .01, .1, 1, 10, 100 etc), with the top row representing values of "fives" and the bottom representing values of "ones". These markers are permanently attached to the device.

It should be noted that usage of an abacus relies on a concept of "states" and place values; that is--whether or not beads are in the "inclusive" or "not-inclusive" positions. To count items on an abacus, a number of beads are shifted over to the represented position that indicates a counted value, and any that are not moved are not counted.

Mechanical computation and early computing pioneers (1500 - 1900 A.D.)

Leonardo Da Vinci (1452-1519)

Leonardo Da Vinci's Codex Madrid, which has been characterized as "a densely drawn treatise on theoretical and applied mechanics"^[3], lay hidden until 1967, when it was rediscovered in the National Library of Spain in Madrid^[4]. Inside the Codex, a drawing was found for an elaborate mechanical computational device, similar to a construct found in Da Vinci's Codex Atlanticus. In 1968, a working prototype was created and exhibited by IBM, and a hot debate ensued about whether this was a true computational device. Eventually, the exhibit was removed due to a lack of consensus about its validity as a computer, or its adherence to da Vinci's intentions.

Blaise Pascal (1623–1662))

Around 1642, Blaise Pascal created the earliest recognized mechanical computational device, the Pascaline^[5]. The Pascaline performed simple addition and subtraction. The concept of the Pascaline came about from the carrying of places by gear rotation. Functionally, the machine worked by increasing values on a single cog, which ranged from values 0 to 9. Upon the next rotation, a series of cogs would rotate the next gear over one iteration to read 1 while the first cog would reset back to 0.^[6]

Charles Babbage (1791-1871)

Charles Babbage, an English inventor who taught mathematics at Cambridge University, invented a viable mechanical computer equivalent to modern digital computers. Because his inventions never quite reached fruition, Babbage was forgotten in the decades immediately following his death. But Babbage is now recognized for being one of the first computing pioneers to imagine a general-purpose programmable computer.

Herman Hollerith (1860-1929)

Herman Hollerith, an employee of the United States census bureau, is remembered for having created a method for inputting program instructions using punched cards.

Invention of the vacuum tube (1906)

A necessary precursor to the first electronic computers was the invention of the switching vacuum tube, credited to Lee de Forest in 1906. The ability of vacuum tubes to act as switches (on/off devices that stop or start an electric current) would later be important in the building of the first electronic computers.

The first electronic computers (1940 - 1952)

During World War II, the first electronic computers were developed by the British and U. S. governments as a result of secret military projects.

Zuse V3 (1941)

Konrad Zuse, working in relative isolation in pre-war Germany, built three prototype electronic computers (V1, V2 and V3) which computed using the binary number system and other advanced design concepts. His third model, the Z3, was completed in 1941, well before any of the computers shown below. Unfortunately, all three of his working models were destroyed during World War II^[7]. After the war, Zuse built another computer in Switzerland (the V4), and later was the first designer to propose pipelining the computations of a computer processor^[8].

Atanasoff-Berry computer (1942)

John Atanasoff and graduate student Clifford Berry, of Iowa State University, worked on a prototype electronic computer between 1937 and 1942 . Their work introduced key design ideas which may have been communicated from Atanasoff to Mauchly, who later may have incorporated them into the design of the better-known ENIAC computer. Some people give Atanasoff credit for creating the very first working electronic computer, although most historic attention has focused on the ENIAC as being the first.

Colossus (1943)

The highly secret, military Colossus project produced a series of about ten electronic computers used by British codebreakers to read encrypted German messages during World War II. The Colossus computers used the binary number system for computation. The Colossus prototype was initially completed by engineer Tommy Flowers in 1943 at the Post Office Research Station, Dollis Hill, with input from mathematician Max Newman and a few others. The project moved to Bletchley Park by 1944 and lasted until the end of the war.

Harvard Mark I (1943)

The idea for the Mark I computer was conceived in the 1930's by Howard Aiken, then a graduate student in theoretical physics at Harvard University, and who obtained his Ph. D. from Harvard in 1939. The computer was developed and built by International Business Machines (IBM). in 1943 at Harvard. It used the decimal number system for computation, as well as mechanical, punch-card input equipment developed by IBM. The Mark I remained in use until 1959, although by that time its performance was far surpassed by the newer computers.

ENIAC (1946)

John Mauchly and J. Presper Eckert of the University of Pennsylvania proposed the ENIAC (Electrical Numerical Integrator And Computer) to the U.S. Army Ordnance Department's Ballistics Research Laboratory in 1943, and then served as its main designers until construction was finished in 1946. It was a military project justified by a need to compute ballistic trajectories, and was one of the earliest general-purpose, programmable electronic computers^[9].

ENIAC performed its computations using the decimal number system, instead of the binary number system used by most subsequent digital computers. Also, ENIAC was not yet able to store its own program in memory. It had to be programmed by setting switches on function tables and by changing the wiring; considerable human effort was required to reprogram it.

UNIVAC (1951)

The designers of ENIAC jointly formed the Eckert-Mauchly Computer Corporation in 1946, which was bought by Remington Rand in 1950. In 1951, this company delivered the first U. S. commercial computer, called the UNIVAC, to the United States Census Bureau. It was a stored-program computer, like its non-commercial sister the EDVAC. Competing fiercely with IBM, the company eventually built 46 of the earliest commercial computer systems.

EDVAC (1952)

The EDVAC ((Electronic Discrete Variable Automatic Computer) was a successor to ENIAC, intended to resolve some design difficulties. It was the first internally stored program computer to be built, a major improvement over the ENIAC. The U.S. Army Ballistics Research Laboratory funded the development of EDVAC, and it was built at the Aberdeen Proving Ground by the University of Pennsylvania, including ENIAC designers Eckert & Mauchly. They were joined on the EDVAC design by John von Neumann and some others.

The EDVAC realized the stored-program concept first published in von Neumann's 1945 report First Draft of a Report on the EDVAC^[10].

Although its design predates the UNIVAC, the EDVAC did not become fully operational until 1952.

Famous people in history of computing

For now, see this list of people who made conceptual breakthroughs in computer science.

Famous concepts in history of computing

For now, see this list of seminal concepts in computer science.

External links

• The Computer History Museum
• Charles Babbage Institute: Center for History of Information Technology at the University of Minnesota

References