Managing Qubit Connectivity
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In quantum computing, qubit connectivity refers to how qubits in a quantum processor can interact with one another, particularly through multi-qubit gates like CNOT or CZ gates. Unlike classical processors….
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In quantum computing, qubit connectivity refers to how qubits in a quantum processor can interact with one another, particularly through multi-qubit gates like CNOT or CZ gates. Unlike classical processors….
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As quantum computing and quantum communication technologies evolve, quantum networks—networks that distribute quantum information across distances—are becoming a reality. These networks enable quantum key distribution (QKD), distributed quantum computing, and….
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1. Introduction: The Need for Routing in Quantum Networks In classical networks, routing algorithms determine the best path for data packets to travel from a source to a destination. Similarly,….
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1. Introduction: Why a Stack Model for the Quantum Internet? The Quantum Internet is a next-generation communication network where information is transmitted in quantum states instead of classical bits. This….
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1. Introduction: What Is a Quantum Router? In classical networks, routers direct data packets across the internet using pre-defined protocols and addresses. They serve as the gatekeepers of information flow,….
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As classical networks revolutionized the way we communicate, share data, and build systems, quantum networks aim to do the same—but with fundamentally different principles. To make these networks work, specialized….