At the World Governments Summit in Dubai last week, Google CEO Sundar Pichai said Quantum computers were for us 10 years ago. This is the future and everyone is waiting for the next big jump in technology. However, quantum computing is complex. The manufacture of a practical and scalable quantum computer is one of the most challenging problems in modern science. However, Big Tech is working at considerable speed to fix that problem. Microsoft on Wednesday unveiled a major success with its first quantum processor, Merana 1. Unlike traditional quantum chips, which rely on electron-based Qualbits, Majorna 1 is fully designed using new types of materials and particles, Majorna particles.

Microsoft says that the chip is so powerful that it can be increased to one million Qubits, while it is so small that it can fit in the palm of your hand. But what does a quantum chip scalable really mean for a million Qables? Microsoft says that a quantum computer with one million qbits would be far more powerful than all current computers in the world.

As Microsoft and other technical companies break the problems and boundaries of quantum computers, let us break everything for you that you need to know about Majorna 1 Quantum Chip.

What is Majorna 1 and how does it work?

Majorrana 1 is the first quantum chip of Microsoft consisting of a new type of material, called topoconductor, also known as topological superconductor. This success material allows the growth and control of majora particles, which is a particular type of particle that is not naturally present, but can be formed in specific conditions using superconductors and magnetic fields. Topoconductor is capable of creating a completely new status of the case, which is “not a solid, liquid or gas but a topological status”, which provides a unique advantage in quantum computing because they make Qubetes – Quantum Computer origin Units – more stable and less prone to errors.

Most quantum processors today, including Google, Intel and IBM, use Qubits based on electrons or superconducting circuits. While these systems are promising, they require lots of margin to improving complex error to work firmly. The approach of Microsoft, on the other hand, allows error resistance at the hardware level, using topological qualities, which is capable of significantly reduced the requirement of the additional improvement mechanism. As a result, Majorna 1 can achieve better stability, rapid processing and easy scalability than other quantum chips.

“Whatever you are doing in quantum space, it needs a way for a million Quality. If this does not, you are going to hit a wall before going on the scale that you can really solve important problems that inspire us. We have actually worked on a route for one million, “Chetan Nayak, a Microsoft technical partner, emphasizes the importance of scalability in quantum computing.

How close is Majorna 1 for commercial use?

Majorna represents a major jump in 1 tech, but it is still away from commercial deployment. Microsoft says its researchers have worked for more than 17 years to be able to develop this quantum chip. And when it has now demonstrated a working prototype, it is still to be engineering work to refine and score it. But Microsoft says that Majorna 1 “will help feel quantum computers that are able to solve problems on meaningful, industrial-fame over the years, not in decades.”

Other technical leaders also predict the practical usefulness of technology. Google CEO beautiful Pichai estimates that quantum computers may be practically useful in the next five to ten years. Meanwhile, Nvidia CEO Jensen Huang still believes that the quantum computer will take decades to become practical.

Currently, quantum computers what were AI a decade ago -a future technique that the final consumer understands unclearly, and is being used only by scientists for research and development.

What does Microsoft Majrana 1 mean for you?

For most people, quantum computing still feels like a distant technique that has no immediate effect. As we said above, knowledge about it is also unclear. Most people understand it as just a very powerful computer that can do a lot, very fast – which is accurate, but also simple. Which is absolutely fine, because the technology is still limited in the hands of researchers and has not taken the final shape before reaching the hands of the last user. He said, if similar progress is going on with companies like Majrana 1 and Google, Intel and IBM, the effect will be deeper.

Quantum computing may have a significant impact on everyday life. For example, it can bring revolution in the discovery of drug and medicine by simulating molecules and chemical reactions in ways that classical computers cannot. This can solve the problems of climate change by helping scientists develop more efficient solar panels, batteries and carbon capture techniques. It is also believed to contribute to the advancement of AI, which can be a dramatic improvement, it is very efficient, accurate and natural disasters or solving too much complex problems like adapting traffic systems in real time Is capable of doing.