Quantum computing is a new technology that uses atomic-level phenomena to solve complex problems that are beyond the capabilities of traditional computers. This technology, which is at the heart of superconducting quantum processors, has enabled the development of chipsets with increasing computing speeds. In fact, quantum computing has made it possible to solve tasks involving multiple variables by modeling atomic behavior that can only be seen under a powerful microscope.

Use cases for quantum computing can be found in everyday applications such as electric vehicles. It is even assisting organizations in resolving issues such as the energy challenge that humanity faces in the face of rising carbon emissions. Quantum computers are smaller and lighter than traditional computing systems, requiring far less energy while being more resilient, even in adverse external environments. Quantum computing is changing the way computers work and introducing new efficiencies in how humans live and interact in an increasingly connected world.

Quantum computing is an advanced form of computation leveraging the principles of quantum mechanics, which govern the behaviour of particles at atomic and subatomic scales. Unlike classical computers that use bits (0 or 1), quantum computers use qubits, which can exist in multiple states simultaneously through a property called superposition. This enables quantum computers to process vast amounts of data in parallel.

Another key feature is entanglement, where qubits become interconnected such that the state of one directly influences the state of another, no matter the distance. These principles allow quantum computers to solve certain problems like complex simulations, cryptography, and optimization much faster than their classical counterparts.

While still in development, quantum computing holds transformative potential for science, medicine, artificial intelligence, and finance.