This story was created for the Google Expeditions project by Vida Systems, now available on Google Arts & Culture.
In a little over 50 years, the speed and complexity of the microprocessor have increased billions of times.
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Microprocessor Introduction
A microprocessor is a computer chip that is designed to carry out the functions of your electronic device, kind of like an engine.
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Whether it be a gaming console, or your cell phone, today’s microprocessors are made from silicon transistors that are designed to perform simple arithmetic and logic operations, but when billions of these operations are combined together, something magical happens.
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Mobile Phones
Acting like its brain, the microprocessor handles all of your phone’s operations, from texting to emailing and even your apps. A modern smartphone like the iPhone 6 has more computing power than the computers that sent the Apollo spaceship to the moon.
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Server Farms
A server is essentially a device that allows the user to perform various tasks such as sharing information, searching the internet, and calculating numbers. A server farm is made of thousands of microprocessors.
First pocket calculators (1970) by Canon, Sanyo, and SharpHeinz Nixdorf MuseumsForum
Microwaves and Other Everyday Objects
Not all microprocessors are designed to be fast and complex. We can also find microprocessors in everyday objects from microwaves and calculators to personal appliances like hair dryers and electric toothbrushes.
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History of Microprocessors
The timeline of the microprocessor is surprisingly short. In less than 70 years, we went from just having an understanding of how transistors work, to being able to cram billions of them into the size of a postage stamp. From having many circuit boards to only a small few.
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Transistor
A transistor is a semiconductor used as a building block for microprocessors. They have 2 main functions, which are to act as “switches” or “amplifiers.” The first working transistor was created in 1947 by John Bardeen, Walter Brattain, and William Shockley.
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1947
A useful transistor is first implemented (single transistor) at Bell Laboratories. This electronics invention opened the way for microprocessors, and replaced the vacuum tube, which was difficult to miniaturize and wasted a lot of energy.
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1960s
Microprocessors are few and expensive. They are mostly developed for very special purposes such as for the F-14 fighter jet, NASA's Interplanetary Monitoring Probe (IMP), and the Minuteman II missile guidance system.
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1971
Intel introduced the 4004, widely recognized as the first commercial microprocessor. It cost $60 USD at the time ($350 USD adjusted for inflation), and was able to execute 50,000 instructions a second (2,300 transistors).
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1978
Intel’s 8086, a 16 bit microprocessor with 29,000 transistors, was released. This chip’s instruction set is still at the center of most computers built today and transformed Intel into the world’s largest chip company.
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1996
IBM’s Deep Blue computer beat Chess Master Garry Kasparov for the first time. The Deep Blue program was capable of analyzing 200 million positions per second and served as yet another example of how powerful microprocessors were becoming.
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2003
Advanced Micro Devices (AMD), Intel’s primary rival in designing and building microprocessors, released the Athlon 64, a 64-bit chip with 65 million transistors. It was AMD’s first 64-bit processor created for average consumers.
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2016
Today’s cell phone has as much computing power as a supercomputer from 2 decades ago. There are even microprocessors that we can wear on our wrists.
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2007
With its very first iPhone release, which was recognized as Invention of the Year by Time magazine, Apple was pretty much able to store a computer on a phone. This was possible by using mobile–specific chips.
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Applications of Microprocessors
Today, due to their low cost and flexibility, microprocessors can be found in almost every device imaginable. When we think of microprocessors, we think of CPUs inside our personal computers, but CPUs for personal computers accounts for only 2% of all the microprocessors sold.
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The rest are embedded microprocessors, found in anything and everything from toasters to cars.
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Computers
Computers have such an amazing range of uses, but powering all that are microprocessors. Microprocessors use arithmetic/logic unit (ALU) to complete mathematical operations such as add, subtract, etc. They move data from one location to another and can also make decisions.
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Cars
For decades, cars were no more complicated than the mechanical parts running the engine to the electrical components controlling the headlights.
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With the integration of microprocessors, cars now have the ability to track your location with GPS, make phone calls, and even park or drive themselves.
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TVs
Microprocessors have enabled us to use our TVs almost like basic computers. We can now surf the web while watching Netflix, pair our phones to stream pictures, play music or use apps directly on our TV, or even watch films or play games in 3D.
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Making of a Microprocessor
There are thousands of ways for creating a microprocessor design, depending on the specific applications or the intended uses that are being addressed.
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However, all microprocessors share similar origins and traits, and all are dependent upon a semiconducting material such as silicon.
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Silicon Mine
Silicon is not found in its pure state (Si) but rather in variants such as silicon dioxide, also known as silica. The Earth's crust is composed of 14% silicone dioxide, and found in sand in the form of quartz. These quartz are mined and refined to produce pure silicon.
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Silicon Ingot
Pure silicon are made into a long cylinder called an ingot by a process called the Czochralski Process. This process takes a “seed crystal” and essentially pulls it through a melted mass of silicon, creating a silicon ingot.
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Silicon Wafer
Silicon wafers are, as their name implies, very thin slices of silicon which can be used in the creation of electronic circuit boards such as microprocessors. The first one was manufactured in 1960.
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Chip Design & Lithography
Integrated chip design (IC Design) consists of building extremely tiny electronic components into an electronic network which are bonded to a semiconductor using a process called lithography.
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Lithography involves etching needed components for the chip onto the semiconductor wafer using light sensitive polymer called photoresist.
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Transistors
A transistor is the smallest functioning unit in a processor. Being the basic building block of a microprocessor, it performs a very simple logic operation when a voltage is applied. When billions of these transistors work in sync, they can do amazing things.
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Diode
Diodes direct the flow of electricity. Electric current can only travel one way in a diode due to its polarized ends. On one end, the anode, is positive; on the other, the cathode is negative. Current can only flow from the anode to the cathode, never in reverse.
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Bipolar Junction Transistor (BJT)
BJT transistors are comprised of 3 basic sections, the “Collector,” the “Base,” and the “Emitter.” The base controls the current flow. The emitter either releases electrons or emits “holes” which are gaps where there are no electrons.
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The collector receives the electrons released by the emitter or fills the holes left by the absence of electrons.
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Operation Modes/Gates
Transistors have 4 ways in which the current can flow. In ”Saturation”: the current runs freely from emitter to collector. In “Cut-off”: the current flow is stopped completely. In “Active”: the current is only partially flowing based on the current flowing through the base.
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In “Reverse-active”: The same as Active, just the current is flowing in reverse.
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Future of Microprocessors
As technology advances and we are able to fit more and more transistors onto microprocessors, their power and abilities have grown and could continue to grow exponentially in ways that could drastically affect the way we live our lives.
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Think of even how something as “simple” as the smartphone has changed our day-to-day lives, now image what we could come up with in 10 years from now!
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Moore’s Law
Gordon Moore, the co-founder of Intel, predicted in 1965 that the number of transistors able to be crammed onto a single microprocessor would double every 2 years for the foreseeable future. So far he has not been wrong.
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Quantum Computer
Computers today are limited in their processing ability because they rely on the binary system that uses 0s and 1s. Quantum computers go further by using “qubits”, which can have an infinite number of superpositioned states.
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This has the potential to greatly accelerate the computing speed.
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Artificial Intelligence
Artificial intelligence is defined as “the science of making computers do things that require intelligence when done by humans.”
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As microprocessors evolve, the goal of creating a computer that can do more than simply analyze given data, but analyze implied data given its situation, is growing increasingly popular.
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