Today’s small computers are getting stronger. Compared to cellular computing skills more than 50 years ago, cell phones have more computing skills. With a reduction in the size of the computer day, it needs to increase its functionality – and standing here is a big problem. In a post I talked about a computer processor’s profile, the computer processor was made up of billions of transistors. Now we need to put more transistors in the same process because we need to create advanced processor – and it needs to reduce the size of the transistor. So if we want to make a small and powerful computer compared to today, we have to make a computer in a whole new way. To reduce the size of the Kenona transistor, a transistor will become an atom once, and the computer will not really be able to do that which now does it. But it is a new computing technology that would lead to the nuclear processor, and it will be called quantum computing, which processor will work with millions of times faster than high-power computers today. Do not you like to hear? Yes, more details can be found if more details are available. So let us know what Quantum computing is and how it works.
How does current computing work?
What do you think about your computer? Maybe you think it is an electronic device, which is on top of your desk or on the bed – you can send an email, you can play online shopping, you can chat with friends or the game. But your computer is much more than anything, much less than what you think. Like to hear like crazy? Your computer is much more than your imagination, because it is a machine designed for any purpose. This means that you can do almost everything of doing it. Again, your computer is much less than your brain, because its working method is slightly better than your normal calculator.
Today’s traditional computers complete two tasks and fulfill your computing needs. One is that they can store any number in memory and can make simple processing (such as adding or subtracting) between these numbers. Then, they can be solved with random numbers random numbers in any number and solve them, and it is called an algorithm. These two main functions of the computer, keep the numbers and process the numbers, complete the computer with the help of a switch – the name of the transistor
The transistor can think of the subtle version of the switch in the wall of your cell – which helps to burn or destroy the fan of your house. In your computer’s processor, the transistor or memory transistor is placed or stopped at any number. If the electrode is transmitted through a transistor, it closes the transistor (1) and stores (0). And can also be stored using the long row of numbers or letters or symbols to the one or zero, and this method is called a binary system (so does capital A with 1,000,001 Computer A and short arm As 01100001).
Each zero or one is called a binary digit or bit – and can be saved in 255 different characters in a row of eight bits (eg A-Z, A-Z, 0-9, and common symbols). Today’s computer calculates using the circuit, it is called a logical gate – which is made of combination of multiple transistors together. The biggest problem of today’s traditional computers is that they depend on traditional transistors. If this does not seem to be the cause of any problem, but the actual problem will only be seen when viewed separately. There is no problem with the big processor, but when you want to make a strong processor equal to your fingers, the problem will be exposed to you.
So let’s discuss the actual points of the problem. The desire to consolidate more information together in one place at the same time – more than one and zero transit – increase in the number of more transistors. Today’s traditional computers can only do one thing at a time. When you try to solve complex tasks with which computer, the computer will take several steps and time to perform that task. The previous computers had to compute more work 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 make these transistors as small as they want, but by shortening them, their size will once again be equal to an atom. And when the transistors become single atoms, it will not be possible to turn them on or off using the same method. And for that we need quantum computing.
What is quantum computing?
What is Quantum Computing?
If you have studied with light, you should know a bit about the quantum theory of physics. Quantum theory is the branch of physics that discusses the smallest particles in atom and atom. You certainly know that light bulbs sometimes behave like they seem to be 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 dualism- it is a concept that we find in quantum theory of light.
It is really difficult to realize that there are things which are made in two forms at the same time (particles and waves) – there is no such thing in our everyday life. One does not include a bicycle and a bus type. But the concept of quantum theory is just a sense of insanity. The most misleading example of quantum theory is known as the cat of Schrodinger – in short, here’s the idea, imagine a quaint world of quantum theory where a cat or cat is alive and dead together.
But now the question is how are these puzzles and how strange things are connected to the computer? Well, now imagine, we are moving the size of the transistor from day to day. But to be small, when its size is equal to an atom, then it can not be turned on or off because it can be done in today’s traditional process. Because the power of atom can never be stopped or dissipated by electricity. In the meantime, the transistor will be in a situation where they are at the same time and also a lock. But now the biggest question is, is it really possible to do this? If possible, the unlock will be a huge computing idea, which you have not even imagined so far. In future generations, we need quantum computing as essential – today’s computers lose a little energy or lose them for processing inside. And for this reason, computers become very hot and at the same time eradicate the energy. So we have a new concept computer.
Quantum + Computing = Quantum Computing
Works on any of today’s common computer-bit, logical gates, algorithms. Quantum computers will have similar features, in the case of normal computer bits, quantum computers will have quantum bits or cubits – which will work in a different way. Where one bit can save only one or one zero, one cube, one or one zero or one or zero, can save both simultaneously or in infinite numbers between one or zero – i.e. save several favorites at the same time Goes to
If this principle is confusing you, think about light, how can it move the particles once again in the form of waves. Or think of Schrodinger’s cat, who is alive once, or think of a car that returns the cycle back together. Ideal example of how cubits can save many numbers at once is a classic example of the superposition of physics. is. According to this concept, two waves combine to create a new wave, and this third wave takes the first and second waves together.
Let’s take a good example to make it easy to understand. If you try to play a flute, think that the bamboo tube already has a permanent wave: this permanent wave has all kinds of similar waves. When you blow a bamboo and mix another wave, the bamboo already produces a new wave, together with the waves. Like cubits can preserve many types of recipes as well as super position ideas.
Quantum computer can save many numbers at the same time, so it can also do several processing at the same time. As a result of quantum computing, any process will not need to be completed one after the other. But at the same time it can work in parallel. So if the quantum computer works in parallel, it would be possible to work more than million times faster than any existing computer … if we can make a quantum computer