What if a computer could solve issues in minutes that could take ordinary computers years or maybe a long time to resolve? That's what quantum computing has been designed to achieve, and the latest discovery of "logical qubits" by Microsoft brings us one step towards attaining this in future. However, what are these logical qubits specifically, and the way do they perform?
Microsoft's quantum computer runs on logical quantum bits
Bits are used in standard computer systems and can be either a 0 or a 1. On the other hand, quantum computer systems employ qubits. These qubits may be each a 0 and a 1, or both at the same time, because of the one of a kind capabilities of quantum mechanics. Quantum computer systems are very powerful for specific obligations due to their superposition, or "both straight away" characteristic, which permits them to recall multiple selections right now.
Regular, or physical, qubits are fragile. They're easily disrupted by their environment, leading to errors in calculations. This is why quantum computers haven't quite lived up to their hype yet. Here's where logical qubits come in.
Think of a logical qubit as a knight in shining armor for regular qubits. It's a way to make them more resilient. Microsoft's approach is like building a protective shield around the physical qubits. They use clever techniques to spread the information across a group of these qubits. Even if one qubit makes a mistake, the others can back it up and ensure the calculation remains accurate.
Imagine you're writing a message in the sand. A single gust of wind could erase a letter. But if you write the same message on several pieces of paper scattered around, the wind might only smudge a bit on one. You can still read the message because you have backups. Logical qubits work in a similar way, creating redundancy to fight errors.
Microsoft's achievement is significant because they were able to create four reliable logical qubits from just 30 physical ones. This is a much better ratio than previously thought possible. It means we can build more powerful quantum computers without needing an enormous number of physical qubits.
What types of issues might these extremely trustworthy qubits solve, then? The possibilities are amazing. Imagine creating unique substances with previously unattainable features, transforming the drug discovery process by modeling complex molecules, or even breaking the encryption methods that protect our online environment (though new codes would probably be created to prevent this!).
Here are some key takeaways:
- Regular computers use bits (0 or 1), while quantum computers use qubits (can be 0, 1, or both at once).
- Physical qubits are error-prone. Logical qubits combine multiple physical qubits for increased reliability.
- Microsoft's achievement allows for more powerful quantum computers with fewer physical qubits.
Wrap Up
The future of computing is getting strange, but in a very exciting way. With logical qubits leading the charge, Microsoft's quantum computer is paving the way for a new era of technological marvels.
Kalin
05-Apr-2024Microsoft has developed the advanced computers that we call quantum computers and here also it has used many things but the most famous is-
Quantum chips- Chips are considered the most important part of the hardware that's why most brands like NVIDIA are struggling to make one of the most advanced chips. Also, Microsoft build the most advanced chips which can be used in Quantum Computers.