วันอาทิตย์ที่ 30 กันยายน พ.ศ. 2555

Evolution of Computers


 

Evolution of computers.


Evolution Of Computers(Iron Man)Do you know how computers evolved from being small calculators to becoming the intelligent machines that they are? Read on for information on the evolution of computers.
Information on evolution of computers and the timeline of computer development. In 1937 Alan Turing's Turing machine pioneered the idea of machines that could complete well-defined tasks by being supplied with programs. In 1938, Konrad Zuse built the first binary digital relay computer. In 1943 the first general-purpose digital computer, ENIAC was made. In 1948 the Manchester Baby became the first stored program computer. In 1955 MIT built the first real-time processing machine. In 1956, IBM created the disk memory system. The next year brought the integrated circuit chip. In 1959 IBM introduced the first desktop machines, which led in 1965 to Digital Equipment Corporation's introduction of the first real microcomputer. The links included herein relate to computer history, timeline of computer technology and the human experience.

Abacus was invented in 2400 BC.
The term Computer, originally meant a person capable of performing numerical calculations with the help of a mechanical computing device. The foundation stone of the development of computers was laid way back in the era before Christ. Binary arithmetic is at the core of computer systems. History of computers dates back to the invention of a mechanical adding machine in 1642. ABACUS, an early computing tool, the invention of logarithm by John Napier and the invention of slide rules by William Oughtred were significant events in the evolution of computers from these early computing devices. Here's introducing you to the ancestors of modern computers.

Samuel Morsetriangle Abacus was invented in 2400 Before Christ
triangle[1] Pingala introduced the binary number system, which would later form the core of computing systems.
triangle[2] Later in 60 AD, Heron of Alexandria invented machines that could follow instructions. Who knew back then that this idea would evolve into intelligent machines!
triangle[3] The 1600s witnessed the invention of slide rules, the system of movable rods based on logarithms used to perform basic mathematical calculations, and a mechanical adding machine, which in some way, laid the foundation of modern-day calculating machines or computers.
1800s saw some remarkable feats in the history of computers. They included:
triangle[4] A punching card system was devised by Joseph Marie Jacquard in 1801.
triangle[5] Charles Babbage designed the first mechanical computer in 1822 and the Analytical Engine in 1834.
triangle[6] Morse code was invented in 1835 by Samuel Morse.(Pic 2.)
triangle[7] George Boole invented the Boolean algebra in 1848, which would later be at the heart of programming.

 

first generation computers

If you look at how computers evolved, you will notice that first generation computers made use of vacuum tubes. These computers were expensive and bulky. They used machine language for computing and could solve just one problem at a time. They did not support multitasking.
P.3-4 Mark1 & Eniactriangle[8] IBM, today a big name in the list of computer technology industries, was founded in 1911.
triangle[9] It was in 1937 that Alan Turing came up with the concept of a theoretical Turing machine. In the same year, John V. Atanasoff devised the first digital electronic computer. Atanasoff and Clifford Berry came up with the ABC prototype in the November of 1939. Its computations were based on a vacuum tube and it used regenerative capacitor memory.
triangle[10] Konrad Zuse's electromechanical 'Z Machines', especially the Z3 of 1941 was a notable achievement in the evolution of computers. It was the first machine to include binary and floating-point arithmetic and a considerable amount of programmability. Since it was proved to be Turing complete in 1998, it is regarded as world's first operational computer.
triangle[11] In 1943, the Colossus was secretly designed at Bletchley Park, Britain to decode German messages. The Harvard Mark I of 1944 was a large-scale electromechanical computer with less programmability. It was another step forward in the evolution of computers. (Pic 3.)
triangle[12] The U.S. Army's Ballistics Research Laboratory came up with the Electronic Numerical Integrator And Computer (ENIAC) in 1946. It came to be known as the first general purpose electronic computer. However, it was required to be rewired to change its programming thus making its architecture inflexible. Developers of ENIAC realized the flaws in the architecture and developed a better one. It was known as the stored program architecture or von Neumann Architecture. It got this name after John von Neumann, who for the first time described the architecture in 1945. All the projects of developing computers taken up thereafter have been using the von Neumann Architecture. All the computers use a 'stored program architecture', which is now a part of the definition of computers. (Pic 4.)

Mark IItriangle[13] Mark II was an electromechanical computer built at Harvard University under the direction of Howard Aiken and was finished in 1947. It was financed by the United States Navy . (Pic 5.)
The Mark II was built with high-speed electromagnetic relays instead of electromechanical meters used in the Mark I, which makes it much faster than its predecessor. Its addition time is 0.125 seconds (8 Hz) and the multiplication time was 0.750 seconds. This was a factor of 2.6 faster for addition and a factor of 8 for the rapid multiplication compared to I. Mark It was the second machine (after the relay calculator Bell Labs) have floating point hardware. A unique feature of the Mark II is that it has built-in hardware for several functions such as the inverse square root, logarithm, exponential, and trigonometric functions. They have between five and twelve seconds to run.
The Mark II was not a stored-program computer – it read an instruction of the program one at a time from a tape and executed it (like the Mark I). This separation of data and instructions is known as the Harvard architecture . The Mark II had a peculiar programming method that was devised to ensure that the contents of a register were available when needed. The tape containing the program could encode only eight instructions, so what a particular instruction code meant depended on when it was executed. Each second was divided up into several periods, and a coded instruction could mean different things in different periods. An addition could be started in any of eight periods in the second, a multiplication could be started in any of four periods of the second, and a transfer of data could be started in any of twelve periods of the second. Although this system worked, it made the programming complicated, and it reduced the efficiency of the machine somewhat.
The Mark II ran some realistic test programs in July 1947. It was delivered to the US Navy Proving Ground at Dahlgren, Virginia in 1947 or 1948.
triangle[14] The U.S. National Bureau of Standards came up with Standards Electronic/Eastern Automatic Computer (SEAC) in 1950. Diodes handled all the logic making it the first computer to base its logic on solid devices.
triangle[15] American mathematician and engineer, known as the 'Father of Information Theory', Claude Shannon published a paper Programming a Computer for Playing Chess, wherein he wrote about a machine that could be made to play chess!
triangle[16] IBM announced the IBM 702 Electronic Data Processing Machine in 1953. It was developed for business use and could address scientific and engineering applications.

second generation of computers.

Till the 1950s all computers that were used were vacuum tube based. In the 1960s, transistor based computers replaced vacuum tubes. Transistors made computers smaller and cheaper. They made computers energy-efficient. But transistors led to emission of large amounts of heat from the computer, which could damage them. The use of transistors marked the second generation of computers. Computers of this generation used punched cards for input. They used assembly language.
triangle[17] Stanford Research Institute brought out ERMA, Electronic Recording Machine Accounting Project, which dealt with automation of the process of bookkeeping in banking.
triangle[18] In 1959, General Electric Corporation delivered its ERMA computing system to the Bank of America in California.

Douglas Engelbartthird generation of computers

The use of Integrated circuits ushered in the third generation of computers. Their use increased the speed and efficiency of computers. Operating systems were the human interface to computing operations and keyboards and monitors became the input-output devices. COBOL, one of the earliest computer languages, was developed in 1959-60. BASIC came out in 1964. It was designed by John George Kemeny and Thomas Eugene Kurtz. Douglas Engelbart(Pic 6.) invented the first mouse prototype in 1963. Computers used a video display terminal (VDT) in the early days. The invention of Color Graphics Adapter in 1981 and that of Enhanced Graphics Adapter in 1984, both by IBM added 'color' to computer displays. All through the 1990s, computer monitors used the CRT technology. LCD replaced it in the 2000s. Computer keyboards evolved from the early typewriters. The development of computer storage devices started with the invention of Floppy disks, by IBM again.
triangle[19] In 1968, DEC launched the first mini computer called the PDP-8.
triangle[20] In 1969, the development of ARPANET began with the financial backing of the Department Of Defense.


Xerox Star(Xerox 8010 Information System)Thousands of integrated circuits placed onto a silicon chip made up a microprocessor. Introduction of microprocessors was the hallmark of fourth generation computers.
triangle[21] Intel produced large-scale integration circuits in 1971. Microprocessors came up during the 1970s. Ted Hoff, working for Intel introduced 4-bit 4004.
triangle[22] In 1972, Intel introduced the 8080 microprocessors.
triangle[23] In 1974, Xerox came up with Alto workstation at PARC. It consisted of a monitor, a graphical interface, a mouse, and an Ethernet card for networking.(Pic 6.)
triangle[24] Apple Computers brought out the Macintosh personal computer on January 24 1984.

Ice Age 1:Funny animation.gifThe fifth generation computers are in their development phase. They would be capable of massive parallel processing, support voice recognition and understand natural language. The current advancements in computer technology are likely to transform computing machines into intelligent ones that possess self organizing skills. The evolution of computers will continue, perhaps till the day their processing powers equal human intelligence.
Article by : 



ไม่มีความคิดเห็น :