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What is Quantum Computing? The Future Of Quantum Computer

Quantum Computer




Today's small computers are becoming more and more powerful day by day. Cellphones have more computing skills in your pocket than today, compared to 50-year-old cell-size computers. With the reduction of computer size day by day, there is a need to increase its efficiency - and there is a huge problem standing here. In a post I discussed the computer processor profile, the Computer Processor was made up of billions of transistors. Now we need to create more advanced processors to get more transistors in the same process - and it needs to reduce the size of the transistor.


So if we want to make a smaller and powerful computer than today, we have to create a computer in a whole new way. Once the size of the Kenona transistor is reduced, one transistor will become an atom-size one-and the computer will not be able to do exactly what it does now. But this is a new computing technology that will give birth to this atomic processor, and it will be called Quantum Computing, whose processor will work faster than any of today's high power computers, more than million times. Do not you like to hear? Yes, more fun can be found if more details are available. So let us know what Quantum computing is and how it works.


How Does The Current Computing Work?



Quantum Computer



What do you think about your computer? Maybe you think it's an electronic device, which is on top of your table or on the bed - you can send emails, make purchases online, chat with friends, or play games in it. But your computer is much more than anything else, much less than what you think. What did you like to hear, mad? Your computer is more than anything you think because it is a machine designed for any purpose. That means you can virtually do almost everything by doing it. Again, your computer is far less than your mind, because its working method is just a little better than your normal calculator.


Today's traditional computers fulfill their computing needs by completing two tasks. One is that they can store any number in memory and can perform simple processing (such as adding or subtracting) between these numbers. Again, they can solve random numbers with any number of random numbers, and they can solve it - and it is called an algorithm. These two main functions of the computer, keeping the number and processing of numbers, complete the computer, with the help of a switch - the name of the transistor.




The transistor can think of the microscopic version of the switch in your cell wall - which helps to burn or unwind your house fan or bulb. By transferring the transistor or memory transistor in your computer's processor or by keeping it off, any number is saved. If the electrician is flushed through a transistor, then it preserves (1) and stores it (0) if the transistor is turned off. And any number or letter or symbol can be stored using a long row of this one or zero, and this method is called binary system (hence the computer holds the capital A with 1000001 and preserves short arm as 01100001).


Each Zero or One is called a binary digit or a bit- and can be saved in 255 different characters in a row of eight bits (such as A-Z, a-z, 0-9, and common symbols). Today's computers calculate using the circuit, it is called a logical gate - which is formed by combining many of the transistors.


The biggest problem of today's conventional computers is that they are dependent on conventional transistors. If it does not seem to be the cause of any problem, but when it is seen separately then the real problem will be seen in front of itself. There is no problem with a large processor, but when you want to create a strong processor equal to the finger of your hand, the problem will come in front of you right away.


So let's talk about the real point of the problem. The desire to consolidate more information together in the same place - increase the number of more one-and-a-more reservoir named Zero - together. Today's traditional computers can do just one thing at a time. When you try to solve the complex tasks with which computer, the computer will take as many steps and time to do that task.


Previous computers had to do more computing than today's computers to do any work and they used to waste more power. But today's computers are becoming more powerful, and we can do more. Now the problem is that we can do these transistors as small as we want, but once they make them small, their size will once again be equal to one atom. And when the transistors become one atom it will not be possible to turn them on or off by using the same method. And for this, we need Quantum computing.


What is Quantum Computing?



Quantum Computer


If you have studied with light, you must know a little about the quantum theory of physics. Quantum theory is the branch of physics that discusses the smallest particles in the atom and atom. You certainly know that sometimes light bulbs behave as if it appears that the light bulb is made of small particles - but sometimes it seems that the light bulb comes in the air through the waves. And it is called wave-particle duality-this is a concept we find out from the quantum theory of light.


It is really difficult to realize that there are things that are formed in two forms at the same time (particles and waves) - there is no such thing in our everyday life. One does not contain a bicycle and a bus type together. But the concept of Quantum theory is just such a crazy idea. The most misleading example of the quantum theory is known as Schrödinger's cat - briefly, here it is said, imagine a quaint world of quantum theory where a cat or cat is alive together and dead.


But now the question is, how are these riddles and how to deal with the computer? Well, now imagine, we've been moving the size of the transistor from small to small, day after day. But to be less so when its size stands at the same level as an atom, it can not be turned on or off as it can be done in today's conventional process. Because the power of an atom can never be stopped or streamed with electricity.


In the meantime, the transistors will be in a situation where at the same time they are also there and also off. But now the biggest question is, is it really possible to do this? If possible, unlock will be a huge computing idea that you might not have imagined till now. In the future generation, we must necessarily have quantum computing-today's computers lose most of the energy to save a bit or processing them inside. And for this reason, the computers become so hot and the energy is eroded. So we definitely need a new concept computer.


Quantum + Computing = Quantum Computing



Quantum Computer


Works on any common computer-bit, logical gate, algorithm today. Quantum computers will have similar features, just in case of normal computer bits, Quantum computers will have Quantum Bits or Cubit - which will work in a different way. Where a bit can save only one or one zero, one cubic one can save one or one zero or one or zero both together or an infinite number between one or zero - that means it can save more than one concatenation at the same time.


If this theory seems confusing to you, think about the light, how can it move together particles again in waves. Or think of Schrödinger's cat, which is alive once alive, or thinks of a car that bicycles back together The ideal example of how Cubits can save multiple numbers at once is the ideal example of a superposition of physics. According to this concept, two waves combine to create a new wave, and this third wave carries the first and second waves simultaneously.



Let's take a nice example to make it easier to understand. If you try to play the flute, then think that inside a bamboo tube, there is a permanent wave that already exists: all these types of waves are the same in this permanent wave. When you mix another wave with one by blowing in the bamboo, the waves already in the bamboo mix together and create a new wave. Just like the Cubits may preserve a number of delicacies as well as superposition ideas.


Quantum computers can store multiple numbers at the same time, so it can also do multiple processing at the same time. As a result of quantum computing, no process will be required to complete one after another. Rather, it can work in Parallel at the same time. So if Quantum Computer works in Parallel, it will be possible to work more than a million times faster than any existing computer. If we can find the Quantum Computer!


Maybe we can see Quantum computers in the future and quantum computing will help to completely transform our current computing experience. I know today's topic was very confusing. It is really a very difficult task to present a very complex issue. I do not know whether the whole thing was able to clearly enter your brain - but I tried my best. If there is still any confusion with Quantum computing, then I can comment below. I would definitely reply. And the post must share more than that, thanks




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