0
Who Had a job to send up the 1890 census and devised a punch card machine?
Wiki User
∙ 14y ago
The answer is Herman Hollerith.
Wiki User
∙ 14y ago
Add your answer:
Earn +20 pts
What is the Hollerith's Automatic Census Tabulating Machine?
Invented in 1890, by Herman Hollerith, it was a way to speed up the tabulation of the US Census.
What was the impetus for the creation of a ''computing'' machine?
Increasing demands in science, engineering, business, etc. for large computation intensive calculation that pushed the limits of the abilities of human computers to perform them within the limited times available with a minimum of errors.The first occurrence of this was in the 1830s and Charles Babbage responded with his inventions of the Difference Engines and Analytical Engine, but was unable to secure adequate funding to complete the machines.The second occurrence of this was shortly before 1890 when the US Census Bureau recognized they would not be able to complete the upcoming census on time to meet the deadline in the constitution and Herman Hollerith responded with his invention of his electromechanical semiautomatic punchcard tabulation system.The third occurrence of this was around the beginning of the 20th century and several people in various universities responded with inventions of various types of analog computers, culminating in MIT's gigantic electromechanical Differential Analyzerin 1929.The fourth occurrence of this was in the late 1930s thru early 1940s and several people (Zuse in Germany, Atanasoff in US, Flowers in UK, Eckert & Mauchley in US, Turing in UK, etc.) responded ultimately resulting in the invention of the modern general purpose programmable electronic digital computer.
When did the inventor die that made computers?
The first use of the word "computer" was recorded in 1613 in a book called "The yong mans gleanings" by English writer Richard Braithwait I haue read the truest computer of Times, and the best Arithmetician that euer breathed, and he reduceth thy dayes into a short number. It referred to a person who carried out calculations, or computations, and the word continued with the same meaning until the middle of the 20th century. From the end of the 19th century the word began to take on its more familiar meaning, a machine that carries out computations.[3]Limited-function early computersThe history of the modern computer begins with two separate technologies, automated calculation and programmability. However no single device can be identified as the earliest computer, partly because of the inconsistent application of that term. A few devices are worth mentioning though, like some mechanical aids to computing, which were very successful and survived for centuries until the advent of the electronic calculator, like the Sumerian abacus, designed around 2500 BC[4]of which a descendant won a speed competition against a modern desk calculating machine in Japan in 1946,[5]the slide rules, invented in the 1620s, which were carried on five Apollo space missions, including to the moon[6]and arguably the astrolabe and the Antikythera mechanism, an ancient astronomical computer built by the Greeks around 80 BC.[7]The Greek mathematician Hero of Alexandria (c. 10-70 AD) built a mechanical theater which performed a play lasting 10 minutes and was operated by a complex system of ropes and drums that might be considered to be a means of deciding which parts of the mechanism performed which actions and when.[8]This is the essence of programmability.Around the end of the 10th century, the French monk Gerbert d'Aurillac brought back from Spain the drawings of a machine invented by the Moors that answered either Yes or No to the questions it was asked.[9]Again in the 13th century, the monks Albertus Magnus and Roger Baconbuilt talking androidswithout any further development (Albertus Magnus complained that he had wasted forty years of his life when Thomas Aquinas, terrified by his machine, destroyed it).[10]In 1642, the Renaissancesaw the inventionof the mechanical calculator,[11]a device that could perform all four arithmetic operations without relying on human intelligence.[12]The mechanical calculator was at the root of the development of computers in two separate ways. Initially, it was in trying to develop more powerful and more flexible calculators[13]that the computer was first theorized by Charles Babbage[14][15]and then developed.[16]Secondly, development of a low-cost electronic calculator, successor to the mechanical calculator, resulted in the development byIntel[17]of the first commercially available microprocessorintegrated circuit.First general-purpose computersIn 1801, Joseph Marie Jacquard made an improvement to the textile loomby introducing a series of punched paper cards as a template which allowed his loom to weave intricate patterns automatically. The resulting Jacquard loom was an important step in the development of computers because the use of punched cards to define woven patterns can be viewed as an early, albeit limited, form of programmability.The Most Famous Image in the Early History of Computing[18]This portrait of Jacquard was woven in silk on a Jacquard loom and required 24,000 punched cards to create (1839). It was only produced to order. Charles Babbage owned one of these portraits; it inspired him in using perforated cards in his analytical engine.[19]The Zuse Z3, 1941, considered the world's first working programmable, fully automatic computing machine.It was the fusion of automatic calculation with programmability that produced the first recognizable computers. In 1837, Charles Babbage was the first to conceptualize and design a fully programmable mechanical computer, his analytical engine.[20]Limited finances and Babbage's inability to resist tinkering with the design meant that the device was never completed-nevertheless his son, Henry Babbage, completed a simplified version of the analytical engine's computing unit (the mill) in 1888. He gave a successful demonstration of its use in computing tables in 1906. This machine was given to the Science museum in South Kensington in 1910.In the late 1880s, Herman Hollerith invented the recording of data on a machine-readable medium. Earlier uses of machine-readable media had been for control, not data. "After some initial trials with paper tape, he settled on punched cards..."[21]To process these punched cards he invented thetabulator, and the keypunchmachines. These three inventions were the foundation of the modern information processing industry. Large-scale automated data processing of punched cards was performed for the 1890 United States Census by Hollerith's company, which later became the core of IBM. By the end of the 19th century a number of ideas and technologies, that would later prove useful in the realization of practical computers, had begun to appear: Boolean algebra, the vacuum tube(thermionic valve), punched cards and tape, and the teleprinter.During the first half of the 20th century, many scientific computingneeds were met by increasingly sophisticated analog computers, which used a direct mechanical or electrical model of the problem as a basis for computation. However, these were not programmable and generally lacked the versatility and accuracy of modern digital computers.Alan Turingis widely regarded as the father of modern computer science. In 1936, Turing provided an influential formalization of the concept of the algorithm and computationwith the Turing machine, providing a blueprint for the electronic digital computer.[22]Of his role in the creation of the modern computer, Timemagazine in naming Turing one of the 100 most influential people of the 20th century, states: "The fact remains that everyone who taps at a keyboard, opening a spreadsheet or a word-processing program, is working on an incarnation of a Turing machine."[22]The ENIAC, which became operational in 1946, is considered to be the first general-purpose electronic computer.EDSAC was one of the first computers to implement the stored-program (von Neumann) architecture.The Atanasoff-Berry Computer (ABC) was the world's first electronic digital computer, albeit not programmable.[23]Atanasoff is considered to be one of the fathers of the computer.[24]Conceived in 1937 by Iowa State College physics professor John Atanasoff, and built with the assistance of graduate student Clifford Berry,[25]the machine was not programmable, being designed only to solve systems of linear equations. The computer did employ parallel computation. A 1973 court ruling in a patent dispute found that the patent for the 1946 ENIACcomputer derived from the Atanasoff-Berry Computer.The first program-controlled computer was invented by Konrad Zuse, who built the Z3, an electromechanical computing machine, in 1941.[26]The first programmable electronic computer was the Colossus, built in 1943 by Tommy Flowers.George Stibitz is internationally recognized as a father of the modern digital computer. While working at Bell Labs in November 1937, Stibitz invented and built a relay-based calculator he dubbed the "Model K" (for "kitchen table," on which he had assembled it), which was the first to use binarycircuits to perform an arithmetic operation. Later models added greater sophistication including complex arithmetic and programmability.[27]A succession of steadily more powerful and flexible computingdevices were constructed in the 1930s and 1940s, gradually adding the key features that are seen in modern computers. The use of digital electronics (largely invented by Claude Shannon in 1937) and more flexible programmability were vitally important steps, but defining one point along this road as "the first digital electronic computer" is difficult.Shannon 1940 Notable achievements include:Konrad Zuse's electromechanical"Z machines." The Z3(1941) was the first working machine featuring binaryarithmetic, including floating point arithmetic and a measure of programmability. In 1998 the Z3 was proved to be Turing complete, therefore being the world's first operational computer.[28]The non-programmable Atanasoff-Berry Computer (commenced in 1937, completed in 1941) which used vacuum tube based computation, binary numbers, and regenerative capacitor memory. The use of regenerative memory allowed it to be much more compact than its peers (being approximately the size of a large desk or workbench), since intermediate results could be stored and then fed back into the same set of computation elements.The secret British Colossus computers (1943),[29]which had limited programmability but demonstrated that a device using thousands of tubes could be reasonably reliable and electronically re-programmable. It was used for breakingGerman wartime codes.The Harvard Mark I (1944), a large-scale electromechanical computer with limited programmability.[30]The U.S. Army's Ballistic Research Laboratory ENIAC (1946), which used decimalarithmetic and is sometimes called the first general purpose electroniccomputer (since Konrad Zuse's Z3of 1941 used electromagnetsinstead of electronics). Initially, however, ENIAC had an architecture which required rewiring a plugboard to change its programming.Stored-program architectureThis section does not cite any references or sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (July 2012)Several developers of ENIAC, recognizing its flaws, came up with a far more flexible and elegant design, which came to be known as the "stored-program architecture" or von Neumann architecture. This design was first formally described by John von Neumann in the paper First Draft of a Report on the EDVAC, distributed in 1945. A number of projects to develop computers based on the stored-program architecture commenced around this time, the first of which was completed in 1948 at the University of Manchester in England, the Manchester Small-Scale Experimental Machine (SSEM or "Baby"). The Electronic Delay Storage Automatic Calculator (EDSAC), completed a year after the SSEM at Cambridge University, was the first practical, non-experimental implementation of the stored-program design and was put to use immediately for research work at the university. Shortly thereafter, the machine originally described by von Neumann's paper-EDVAC-was completed but did not see full-time use for an additional two years.Nearly all modern computers implement some form of the stored-program architecture, making it the single trait by which the word "computer" is now defined. While the technologies used in computers have changed dramatically since the first electronic, general-purpose computers of the 1940s, most still use the von Neumann architecture.Die of an Intel 80486DX2 microprocessor(actual size: 12×6.75 mm) in its packagingBeginning in the 1950s, Sovietscientists Sergei Sobolev and Nikolay Brusentsov conducted research on ternary computers, devices that operated on a base three numbering system of -1, 0, and 1 rather than the conventional binary numbering system upon which most computers are based. They designed the Setun, a functional ternary computer, at Moscow State University. The device was put into limited production in the Soviet Union, but supplanted by the more common binary architecture.Semiconductors and microprocessorsComputers using vacuum tubesas their electronic elements were in use throughout the 1950s, but by the 1960s they had been largely replaced by transistor-based machines, which were smaller, faster, cheaper to produce, required less power, and were more reliable. The first transistorized computer was demonstrated at the University of Manchester in 1953.[31]In the 1970s,integrated circuit technology and the subsequent creation of microprocessors, such as the Intel 4004, further decreased size and cost and further increased speed and reliability of computers. By the late 1970s, many products such as video recorders contained dedicated computers called microcontrollers, and they started to appear as a replacement to mechanical controls in domestic appliances such as washing machines. The 1980s witnessed home computers and the now ubiquitous personal computer. With the evolution of the Internet, personal computers are becoming as common as the television and the telephone in the household.[citation needed]Modern smartphonesare fully programmable computers in their own right, and as of 2009 may well be the most common form of such computers in existence.[citation needed]ProgramsAlan Turingwas an influential computer scientist.The defining feature of modern computers which distinguishes them from all other machines is that they can be programmed. That is to say that some type of instructions(the program) can be given to the computer, and it will process them. Modern computers based on the von Neumann architecture often have machine code in the form of an imperative programming language.In practical terms, a computer program may be just a few instructions or extend to many millions of instructions, as do the programs for word processors and web browsers for example. A typical modern computer can execute billions of instructions per second (gigaflops) and rarely makes a mistake over many years of operation. Large computer programs consisting of several million instructions may take teams of programmersyears to write, and due to the complexity of the task almost certainly contain errors.Stored program architectureMain articles: Computer program and Computer programmingReplica of the Small-Scale Experimental Machine (SSEM), the world's first stored-program computer, at the Museum of Science and Industry in Manchester, EnglandThis section applies to most common RAM machine-based computers.In most cases, computer instructions are simple: add one number to another, move some data from one location to another, send a message to some external device, etc. These instructions are read from the computer's memory and are generally carried out (executed) in the order they were given. However, there are usually specialized instructions to tell the computer to jump ahead or backwards to some other place in the program and to carry on executing from there. These are called "jump" instructions (or branches). Furthermore, jump instructions may be made to happen conditionallyso that different sequences of instructions may be used depending on the result of some previous calculation or some external event. Many computers directly supportsubroutinesby providing a type of jump that "remembers" the location it jumped from and another instruction to return to the instruction following that jump instruction.Program execution might be likened to reading a book. While a person will normally read each word and line in sequence, they may at times jump back to an earlier place in the text or skip sections that are not of interest. Similarly, a computer may sometimes go back and repeat the instructions in some section of the program over and over again until some internal condition is met. This is called the flow of control within the program and it is what allows the computer to perform tasks repeatedly without human intervention.Comparatively, a person using a pocket calculatorcan perform a basic arithmetic operation such as adding two numbers with just a few button presses. But to add together all of the numbers from 1 to 1,000 would take thousands of button presses and a lot of time, with a near certainty of making a mistake. On the other hand, a computer may be programmed to do this with just a few simple instructions. For example:mov No. 0, sum ; set sum to 0 mov No. 1, num ; set num to 1 loop: add num, sum ; add num to sum add No. 1, num ; add 1 to num cmp num, #1000 ; compare num to 1000 ble loop ; if num
What's the most outdated thing you still use today?
Common sense.
For what purpose did Herman Hollerith invented his tabulating machine?
1890 US Census.
What machine used punched cards to help with the 1890 census?
Hollerith
When tabulating machine was built?
1890, by Herman Hollerith for US census.
Why did Herman hollerith invented the tabulating machine?
To count data in the 1890 census, which could not have been completed on time to meet the requirements of the constitution using traditional hand methods. The tabulator also controlled a sorter so that cards could be separated for appropriate further processing later on other tabulators.
Who invented the tabulating Machine?
Invented by Herman Hollerith, the machine was developed to help process data for the 1890 U.S. Census.
Where did Herman hollerith invent the computer punch card?
Hollerith was an employee of the US Census Bureau. As there were no electronic computers, it was not a computer punch card, but was used in the 1890 census to semi-automate the processing and counting using electromechanical counters and sorters.
What is the Hollerith's Automatic Census Tabulating Machine?
Invented in 1890, by Herman Hollerith, it was a way to speed up the tabulation of the US Census.
Who invented the punch card machine?
Herman Hollerith was likely the person you're looking for. He invented and was awarded patents for a series of machines that used punched holes for a method of recording data. The true ancestor of our punch cards we think of today such as the IBM type 80. Hope this helps!
Who invented the computer for the census in 1890?
It was NOT a computer. Herman Hollerith invented a set of manually operated punch card handling devices.
Was there a 1890 census for the Austrian-Hungarian Empire?
Yes there was an 1890 census for the Austrian-Hungarian Empire.RESOURCES= WWW.FEEFHS.COM
What bureau of government first used punch cards to colect data?
The United States Census Bureau was the first government bureau to use punch cards for data collection. They began using punch cards in the late 19th century to process and tabulate census data. This technology greatly improved the speed and accuracy of data processing and became widely adopted by various government agencies and industries.
What was the purpose of Herman Hollerith inventing his tabulating machine?
Herman Hollerith invented the tabulating machine to support work in the US 1890 census, tabulating numbers for the count of population in the country.
