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Quantum computers rely on the principles of quantum mechanics, which indeed introduce probabilistic elements into the behavior of quantum systems. However, the power of quantum computers lies in their ability to manipulate and exploit these probabilistic quantum states to perform certain computations more efficiently than classical computers.

In a classical computer, information is stored in bits that can represent either a 0 or a 1. In contrast, a quantum computer uses quantum bits, or qubits, which can exist in a superposition of both 0 and 1 states simultaneously. This superposition allows quantum computers to perform computations on multiple possible states simultaneously, exponentially increasing their computational power for certain problems.

Quantum computers can also take advantage of a phenomenon called entanglement, where two or more qubits become correlated in such a way that the state of one qubit is directly connected to the state of another, regardless of the physical distance between them. Entanglement allows quantum computers to perform certain computations in parallel across multiple qubits, further enhancing their computational capabilities.

While quantum computers hold tremendous potential, building and maintaining them is challenging. Quantum systems are susceptible to various sources of noise and interference that can cause errors in computation. Researchers are actively working on error correction techniques to mitigate these issues and improve the reliability and stability of quantum computers.

As of now, quantum computers are still in the early stages of development, and practical, large-scale quantum computers with error correction are not yet widely available. However, there has been significant progress in recent years, and there are some experimental quantum computers that can perform specialized tasks and demonstrate the principles of quantum computation.

Overall, while quantum computers offer the potential for exponential computational speedup, realizing their full potential requires overcoming significant technical and theoretical challenges, including error correction. Researchers are actively working on addressing these challenges and exploring the possibilities and limitations of quantum computation.

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