Researchers at the University of New South Wales Revealed an Architectural Structure That Solves Some of the Problems of stability faced by scientists in quantum computing.

The new architecture, which the report compared in importance to the landing of a man on the moon, uses the currently available processors to organize how each "spin qubit" is stable and interacts with those around him.

By building a grid of silicon transistors to control the spin and the interaction of each qubit (the qubits are the basis of a quantum computer), the researchers were able to stabilize the interactions between them, the point of blocking of quantum computing. nowadays. The author, Menno Veldhorst, says:

"By selecting electrodes over a qubit, we can control the spin of a qubit, which stores the quantum binary code of 0 or 1. And by selecting qubit electrodes, two-qubit logic interactions, or computations, can be performed between qubits. "

As research moves forward technology, the report says that much remains to be done to create a

Quantum Blockchain Security

According to Carnegie Mellon researchers, quantum computing could theoretically be used to break the encryption mechanism of Blockchain technology, jeopardizing network security.

The risks associated with quantum computing, however, are somewhat remote, potentially giving researchers the time to build encryption "patches" that will manage the risks of computer science. quantum.