Classroom Companion: Business
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Introduction to Digital Economics
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Box 2.1 The Transistor
The transistor is a semiconductor device used to switch and amplify elec- tronic signals. It effectively replaced vacuum tube technology and enabled the production of cheap, low-power, and small electronic devices. It is the basis for almost all ICT devices such as microprocessors, personal computers, smartphones, and other electronic tools. It is the most important invention of Chapter 2 · Information and Communication Technologies 19 2 the twentieth century, perhaps the most important invention of all times. Julius Edgar Lilienfeld had already filed a patent for the field effect transis- tor in 1925. However, because of the lack of high-quality semiconductor materials, it was impossible to build a working transistor at that time. The first practical implementation of the transistor was done at Bell Labs, USA, by John Bardeen, Walter Brattain, and William Shockley in 1947. What they invented was the first point- contact transistor which they patented the year after. They received the Nobel Prize in Physics in 1956 for their “research on semiconductors and their discovery of the transistor effect” (See 7 https:// w w w. n o b e l p r i z e. o rg / p r i z e s / p hy s - ics/1956/summary/ ). The transistor radio was the first commercial device designed using tran- sistors (1954). In its early days, the transistor also found its use in pocket calculators, hearing aids, telecommuni- cation switching equipment, and then, finally, the personal computer and the mobile phone. Today, transistors are mostly used as building blocks for inte- grated circuits which, in turn, are used to produce personal computers, smart- phones, and other electronic devices. In 2014, more than 10 18 transistors were produced. This is more than 100 mil- lion transistors for each human being on Earth. From 1960 to 2018, altogether 1.3 × 10 22 transistors have been manu- factured (Laws, 2018 ). The size of a single transistor has continually gotten smaller since its inception in the 1950s, quite accurately following Moore’s law. While the Intel 4004 microprocessor released in 1971 had 2300 transistors, each with a size of 10,000 nanometers, the 22-core Xeon Broadwell-E5 microprocessor released by Intel in 2016 has 7,200,000,000 tran- sistors each with a size of 14 nanome- ters (Wikipedia, 2020 ). More transistors mean in general more computing power. Whether or not the size of transistors can be further reduced in the future according to Moore’s law is an open issue. In the end, quantum effects, heat- ing, and thermal noise may limit the minimum size of a transistor. Download 5.51 Mb. Do'stlaringiz bilan baham: 
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