Both traditional quantumcomputing and neuromorphic quantumcomputing are physics-based unconventional computing approaches to computations and do not follow the von Neumann architecture.
What is quantum computing? Quantum computing is an emergent field of computer science and engineering that harnesses the unique qualities of quantum mechanics to solve problems beyond the ability of even the most powerful classical computers.
Since then, scientists have explored how quantumcomputers could, in theory, simulate the fundamental quantum rules that govern molecules, chemicals and materials — something today’s computers can only approximate with great effort.
Quantum computing is an emerging area of computer science focused on building computers based on the principles of quantum theory to dramatically increase computation speeds.
Understanding quantumcomputing, from qubits science and tech breakthroughs to future quantum applications, and discovering how close we are to real-world use cases
Quantumcomputer, device that employs properties described by quantum mechanics to enhance computations. Plans for building quantumcomputers have been proposed; although several demonstrate the fundamental principles, none is beyond the experimental stage.
Quantumcomputing is a modern type of computing that uses the principles of quantum physics to process information. Instead of using classical bits that can be either 0 or 1, quantumcomputers use qubits, which can be 0, 1, or both at the same time due to superposition.
By harnessing the bizarre principles of quantum mechanics, quantumcomputers promise to unlock new realms of computational power and transform industries ranging from cybersecurity and healthcare to AI and materials science.
The journey to understanding quantumcomputing begins with the basics of quantum mechanics. At its core, quantum mechanics is a branch of physics that deals with the behavior of matter and energy at the smallest scales.
