In 1906, Lee de Forest had discovered that an electrified mesh placed between two electrodes in vacuum could amplify electrical current and act as a switch. Vacuum tubes were born and soon became indispensable in radios and the rapidly expanding telephone system. During World War I, half a million vacuum tubes were manufactured every year by Western Electric; by the end of the war, the number had doubled to 1 million.
The zenith of vacuum tube technology was the first digital computer, ENIAC, built in 1946. ENIAC was a monster of a machine, weighing more than 30 tons and comprising some 100,000 parts, which included 18,000 vacuum tubes. It filled a large room - the machine was roughly 100 feet long, 10 feet high and 3 feet deep. It consumed a whopping 200 kilowatts of electrical power - lore has it that when ENIAC was turned on, the lights in western Philadelphia dimmed. A tube would fail every couple of days or so, and would have to be replaced. That was the problem with vacuum tubes - they consumed an immense amount of power and failed often.
In the mid-1940s, scientists at AT&T's Bell Labs, foreseeing the problem with vacuum tubes, created a team to find a replacement. The goal was to make a solid-state device that would have no vacuum, no filaments and no moving parts. The team bet on semiconductors - novel materials whose physical properties were just beginning to be understood.
By December 1947, Bell Labs researchers had struck gold. Transistors drastically reduced the power needed to run electronic circuits. But a circuit still needed to be assembled out of individual transistors and other components such as resistors and capacitors that had to be connected together with wires and solder. A single faulty connection meant that the circuit would not work.
Kilby's revolutionary idea was to make all the different components of a circuit out of the same flat block of semiconductor material. Not only would this get rid of wires and faulty connections, it would make the entire circuit much more compact. Kilby demonstrated his first "integrated circuit" on Sept. 12, 1958. It worked perfectly.
Six months later, in California, another engineer, Robert Noyce, independently came up with the idea of making an integrated circuit. Noyce's chip was better suited to be manufactured in large numbers, and soon he was part of a young company called Intel.
Thus was launched a revolution. The first chip-based computer was the first U.S. Air Force computer, built in 1961. The true potential of the integrated circuit was shown when Texas Instruments unveiled the pocket calculator. Previously calculators had been bulky devices that needed to be plugged in to electrical mains. The pocket calculator, small enough to hold in one's palm, had a chip inside and batteries were adequate to power it.
Progress was rapid thereafter. Many have already heard of Moore's law, which has become a mantra of the digital age. First put forward by the Intel co-founder Gordon Moore in the 1960s, it says that the processing power of a chip doubles every two years, while the price falls by half. For more than four decades, Moore's law has held, driving incredible growth and miniaturization - and wealth.
As Moore pointed out once, "If the auto industry advanced as rapidly as the semiconductor industry, a Rolls Royce would get a half a million miles per gallon, and it would be cheaper to throw it away than to park it."
Today, a state-of-the-art chip contains more than a billion components packed into an area the size of a human fingernail.
The question is whether the semiconductor industry can sustain this pace. Further increasing the processing power of chips is proving to be problematic as certain fundamental physical barriers are being reached. At the same time, new frontiers are opening up. The quest is on to make chips that are powered by light instead of electricity, which will enable much faster computers.
As you switch on the television or answer your mobile phone or sit at your computer to surf the Internet today, stop for a second to fete the amazing chip that has made it all possible.
Saswato R. Das writes about astronomy and astrophysics.Continue reading the main story
The Development of Computers Essay
1346 Words6 Pages
Development of computer
What is computer? According to Wikipedia, computer is a device that can be programmed to do a set of arithmetic or logical operations automatically. It is started with the basic device to perform a mathematic problem which is known as Abacus. Computer has been developing year by year and we have seen a lot of generation or development of computer nowadays. The first generation of computer starting from years 1940-1950, this can be called as the first electronic computer. During this time, the computers were using vacuum tubes and it is more complex and huge. The vacuum tube is designed by Lee De Forest. The vacuum tube is a device that is used to amplify the signal by controlling the movement of electrons in an…show more content…
Development of computer
What is computer? According to Wikipedia, computer is a device that can be programmed to do a set of arithmetic or logical operations automatically. It is started with the basic device to perform a mathematic problem which is known as Abacus. Computer has been developing year by year and we have seen a lot of generation or development of computer nowadays. The first generation of computer starting from years 1940-1950, this can be called as the first electronic computer. During this time, the computers were using vacuum tubes and it is more complex and huge. The vacuum tube is designed by Lee De Forest. The vacuum tube is a device that is used to amplify the signal by controlling the movement of electrons in an evacuated space. The first general purpose electronic computer was known as ENIAC or Electronic Numerical Integrator and Computer. The first computer was ENIAC machine by John W. Mauchly and J. Presper Eckert at the University of Pennsylvania. This ENIAC used 10 decimal digits instead of one binary like the other computer. This ENIAC used more than 2000 vacuum tubes and took up about 167 m square of space. ENIAC is generally known as the first high speed electronic digital computer and were productively used during the era.
The second generation of computer starting from 1950-1960 thanks to person who inverted a transistor William Shockley, John Bardeen, and Walter Brattain of Bell Labs. In 1950 two devices were invented in order to improve