Managing Qubit Connectivity
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….
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….
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….
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,….
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….
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,….
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….