quantum cellular automata and quantum gates
Quantum cellular automata are mathematical models that represent systems of quantum particles evolving over time. They simulate the behavior of these particles by employing rules and interactions based on quantum principles like superposition and entanglement. On the other hand, quantum gates are fundamental building blocks of quantum circuits used in quantum computing. They are analogous to logic gates in classical computing but operate on quantum bits or qubits. Quantum gates perform transformations on the quantum state of qubits to manipulate and process information, enabling complex computations in a quantum system.
Requires login.
Related Concepts (1)
Similar Concepts
- cellular automata and cryptography
- cellular automata and quantum computing
- cellular automata in computational physics
- cellular automata in quantum field theory
- cellular automata in quantum information theory
- cellular automata in quantum mechanics
- modeling quantum phenomena using cellular automata
- quantum algorithms with cellular automata structures
- quantum cellular automata
- quantum cellular automata and complexity theory
- quantum cellular automata and quantum entanglement
- quantum computation models using cellular automata
- quantum information processing in cellular automata
- quantum simulation of physical systems using cellular automata
- quantum-state transfer in cellular automata