Google’s quantum computer is 47 years faster than today’s supercomputers

Sycamore can solve complex arithmetic operations in just a few seconds, which Frontier, the world’s most advanced supercomputer, takes 47 years to solve.

Google researchers working on the Sycamore quantum computer have announced that the latest model they have developed can do in just seconds the complex calculations that today’s supercomputers do. It will take 47 years to complete. Revelation consists of a Stady that have not been published or peer-reviewed.

Google has been developing quantum computers for several years now, ever since it announced its first sycamore In 2019, then powered by 53 qubits, writes a Interesting geometry.

Four years ago, the 53-qubit sycamore—the quantum equivalent of classical bits that could represent 1, 0, or both at the same time, allowing certain computations to be performed at breakneck speed—was only a second ahead of today’s fastest supercomputer, Frontier.

Since then, researchers Added 17 qubits to the sycamore. The team used a toroidal random sample, meaning they took readings from randomly generated quantum processes. This maximizes the speed of critical actions, minimizing the risk of external noise ruining the computation.

The scientists then estimated how long it would take today’s supercomputers to perform the same amounts. a Frontier supercomputercurrently the most powerful computer in the world, would take just over 47 years to perform the same computation that Sycamore can do in just a few seconds.

Quantum computing has discovered the potential to address challenges such as climate change Treatments for incurable diseases and much more. But academic research on quantum computers has made limited progress in solving real-life problems.

For now, it remains a distant dream. Even as scientists increase the number of qubits in their quantum systems, they still haven’t figured out ways to deal with “quantum noise” or how to run computers without the need for extremely low temperatures.