Take a look at what Google has accomplished with Willow, its new cutting-edge quantum computing encryption device.
- Additionally, Google claimed to have shown how to use more qubits to scale up the technology while exponentially reducing errors in quantum computers, something that has eluded researchers in the field for the previous 30 years.
- We’ve long theorized that quantum computers can perform tasks that classical computers cannot.
- Debapriya Basu Roy, an assistant professor in the computer science department of the Indian Institute of Technology (IIT) Kanpur, told indianexpress.com that if Google’s assertions are accurate, it proves that hypothesis to be right.
Let’s examine what Google has accomplished with its new Willow chip, the fundamentals of quantum computing, and if it will have an advantage in the current AI arms race.
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What are qubits and quantum computing?
- Words and numbers entered into traditional computers are converted into binary code, which is made up of bits with values of 0 (ground state) or 1 (excited state). A qubit, on the other hand, uses the laws of quantum mechanics to exist in both states at the same time.
- A qubit, for example, might have a 75% chance of having a value of 1 and a 25% chance of having a value of 0. This implies that compared to a single classical bit, a single qubit can represent more information.
- They can solve issues that conventional computers are unable to.
- What distinguishes supercomputers from quantum computers? Classical supercomputers excel in completing computations more quickly thanks to their sophisticated architectures and reliance on acceleration strategies like graphics.
- Processing units (GPUs) and multi-core processing.
- In contrast, quantum gates like the Pauli and H-gates are used in quantum computers. These gates are reversible and made to process qubits.
What is Willow, the quantum computer chip from Google?
Training an AI model on a lot is one of the most important steps in the process. Quantum computers can be quite useful in that situation since they enable faster data computation, he said.
According to estimates, breaking Bitcoin’s encryption would require a quantum computer with roughly 13 million qubits to decrypt it in a day, according to Internet entrepreneur and former Google senior product manager Kevin Rose.
