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Modelling Short-range Quantum Teleportation for Scalable Multi-Core Quantum Computing Architectures

Santiago Rodrigo, Sergi Abadal, Carmen G. Almudéver, Eduard Alarcón

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Abstract

Multi-core quantum computing has been identified as a solution to the scalability problem of quantum computing. However, interconnecting quantum chips is not trivial, as quantum communications have their share of quantum weirdness: quantum decoherence and the no-cloning theorem makes transferring qubits a harsh challenge, where every extra nanosecond counts and retransmission is simply impossible. In this paper, we present our first steps towards thorough modeling of quantum communications for multi-core quantum computers, which may be considered as a middle point between the well-known paradigms of Quantum Internet and Network-on-Chip. In particular, we stress the deep entanglement that exists between latency and error rates in quantum computing, and how this affects the quantum network design for this scenario. Moreover, we show the concomitant trade-off between computation and communication resources for a set of parameters out of state-of-the-art experimental research. The observed behavior lets us foresee the potential of multi-core quantum architectures.

Topics & Concepts

Quantum networkQuantum computerComputer scienceQuantum error correctionQuantum entanglementQuantum technologyQubitQuantum informationQuantum channelQuantum algorithmQuantum teleportationQuantum information scienceQuantumTheoretical computer scienceDistributed computingOpen quantum systemQuantum mechanicsPhysicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata