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a quantum computer shatters 47 years of calculations in seconds

Quantum technology reaches a spectacular new milestone. Google recently announced a major breakthrough: a quantum computer capable of performing calculations in seconds that classical supercomputers would take 47 years to solve. This technological feat opens a new chapter in the history of computing, with potential implications for many fields.

What is quantum computing?

Quantum computing is based on the principles of quantum mechanics, a branch of physics that explores the behavior of particles at the subatomic scale. Unlike traditional computers, which operate with bits that can be either 0 or 1, quantum computers use qubits. Thanks to the superposition phenomenon, a qubit can exist in multiple states simultaneously, exponentially increasing computing capacity.

Another fundamental principle of this technology is entanglement. Two entangled qubits share a bond so deep that the state of one immediately influences the other, regardless of the distance between them. These properties allow quantum computers to deal with complex problems that traditional machines struggle to solve.

Sycamore's revolutionary capabilities

Google presented its latest quantum processor, Sycamoreequipped with 70 qubits. This update represents a considerable leap from its previous 53-qubit model. With a capacity multiplied by more than 241 million, this processor reaches unprecedented computing power.

A striking example? Google's quantum computer can perform calculations in seconds that would take decades on Tennessee-based Frontier, the fastest classical supercomputer to date.

A revolution for scientific research

Thanks to this power, researchers will be able to tackle complex issues, such as:

  • The discovery of new drugs : by simulating molecular interactions that are impossible to model with classical computers.
  • Solving environmental problems : by modeling complex climate systems to predict and mitigate the effects of climate change.
  • Industrial optimization : by calculating optimal solutions for logistics, energy, or financial networks.
Credits: Sharamand/istock

The challenges of quantum computing

Despite its promise, this technology is not without its challenges. Qubits are extremely sensitive to environmental disturbances, a phenomenon called decoherence. This makes their handling complex and limits the time during which they can perform reliable calculations.

Another major obstacle is error correction. Unlike conventional bits, qubits are prone to frequent errors. Developing effective correction methods remains a priority to make these machines truly operational.

A threat to cyber security

Quantum computers also pose a risk to current encryption systems. They could theoretically break encryption keys in record time, putting the security of sensitive data at risk. Paradoxically, the same technology could pave the way for more robust encryption methods, such as quantum cryptography.

Towards quantum supremacy

Google claims to have reached a milestone called quantum supremacywhere a quantum computer exceeds the capabilities of classical supercomputers. This statement sparks debate in the scientific community. Yet experts like Steve Brierley, CEO of Riverlane, see the move as a watershed moment.

Others, like Professor Winfried Hensinger of the University of Sussex, point out that significant progress remains to be made, particularly in reducing errors and extending quantum coherence.

Future outlook

The field of quantum computing is booming. Tech giants such as IBM, Microsoft and Google, as well as many startups, are investing heavily in this race. If current challenges are overcome, the potential applications are immense, affecting sectors as diverse as medicine, artificial intelligence and energy management.

The long-term impact

In the near future, quantum computing could revolutionize the way we approach complex problems. However, widespread adoption will depend on the ability to make this technology accessible, stable and economically viable.

Google has broken new ground by demonstrating the power of quantum computers. Although many challenges remain, these machines could soon transform entire industries and redefine the boundaries of scientific innovation.

Sources :

  • Preskill, J. (2018). Quantum Computing in the NISQ era and beyond.
  • Harrow, A. W., & Montanaro, A. (2017). Quantum Computational Supremacy. Nature Physics.
  • TOP500 Supercomputer Report (2024).
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