Quantum Fundamentals
Quantum computing leverages quantum bits, or qubits, which exist in superpositions of states, enabling parallel processing capabilities beyond classical computers. This page explores its implications for cryptography, optimization, and AI.
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Superposition
Qubits can represent multiple states simultaneously
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Entanglement
Connected qubits affect each other instantly regardless of distance
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Quantum Interference
Quantum states can constructively or destructively interfere
Practical Applications
Cryptography
Quantum computers could break traditional encryption methods, necessitating quantum-resistant algorithms
Optimization
Quantum annealing can solve complex optimization problems more efficiently for logistics and machine learning
Simulate Quantum States
Qubit State Visualizer
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