cellular automata in quantum computation
Cellular automata in quantum computation refers to the application of the principles of quantum mechanics to systems of interacting elements, where the elements can exhibit properties of both classical cellular automata and quantum computing. It involves using quantum states and operations to manipulate and evolve the states of individual elements in a system, allowing for the exploration of complex patterns and computations.
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Related Concepts (16)
- cellular automata
- cellular automata as quantum error correcting codes
- modeling quantum phenomena using cellular automata
- quantum algorithms with cellular automata structures
- quantum automata models
- quantum cellular automata
- quantum cellular automata and quantum entanglement
- quantum cellular automata and quantum gates
- quantum cellular automata simulation algorithms
- quantum computation models using cellular automata
- quantum computation with interacting particle systems
- quantum computation-based topological states in cellular automata
- quantum computational complexity of cellular automata
- quantum information processing in cellular automata
- quantum simulation of physical systems using cellular automata
- quantum-state transfer in cellular automata
Similar Concepts
- cellular automata and computational complexity
- cellular automata and quantum computing
- cellular automata as models of computation
- cellular automata in biological physics
- cellular automata in computational physics
- cellular automata in computer science
- cellular automata in cryptography
- cellular automata in mathematics
- cellular automata in physics
- cellular automata in quantum field theory
- cellular automata in quantum information theory
- cellular automata in quantum mechanics
- cellular automata in statistical physics
- cellular automata in theoretical computer science
- quantum cellular automata and complexity theory