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Dynamic Queuing Analysis and Buffer Management for Entanglement Swapping Buffers with Noise
Entanglement swapping is a core operation in a quantum network. It consumes a pair of entanglements to build a remote entanglement between two parties without direct interaction. In a buffered quantum network, unpaired entanglements can be stored in a ...
Towards an Algebraic Specification of Quantum Networks
The main attributes of quantum networks are the utilization of quantum phenomena, security guarantees, and availability of their main quantum resource - entanglement. The fundamental differences between classical and quantum information will require ...
Quantum Network Planning for Utility Maximization
Enabling quantum capabilities in future generations of networks requires integrating quantum hardware into existing network infrastructure and developing new protocols for quantum communications. However, the cost and inherent noise associated with ...
Scheduling Compact Error Correcting Codes in Entanglement Distribution Networks
A fundamental challenge in generating and distributing high-fidelity entanglement in quantum repeater networks is the management and suppression of quantum errors. In this work, we develop an approach for extending the effective coherence time of ...
RuleSet-based Recursive Quantum Internetworking
A scalable and robust infrastructure for arbitrary quantum communication and distributed quantum computation will realize enhanced as well as new applications that are beyond the reach of classical communication networks. Quantum internetworking, ...
QUANT-NET: A testbed for quantum networking research over deployed fiber
QUANT-NET is a three-node quantum network research testbed funded by the U.S. Department of Energy (DOE). The goal is to establish this network between two sites, Lawrence Berkeley National Lab (LBNL) and University of California, Berkeley, connected ...
A Control Architecture for Entanglement Generation Switches in Quantum Networks
Entanglement between quantum network nodes is often produced using intermediary devices - such as heralding stations - as a resource. When scaling quantum networks to many nodes, requiring a dedicated intermediary device for every pair of nodes ...
Towards Flow Scheduling in A Quantum Data Center
We propose an architecture for future quantum data centers with the scheduling of quantum computing flows, which integrates quantum processors, quantum switches, and quantum networks. The versatility of these data centers is discussed, highlighting ...
Probability-aware Qubit-to-Processor Mapping in Distributed Quantum Computing
Quantum computing has exciting potential but a current technological hurdle lies in the limited number of qubits in a single processor. One way to address this challenge is to assemble small, specialized quantum processors into a larger computing ...
Leveraging Quantum Key Distribution for Securing MACsec Communications
Somewhat ironically, advances in quantum computing are both the cause of, and solution to, the observation that the dependence of public-key cryptography (that underpins much of today's network security) on the intractability of particular ...
Key Generation and Identity Verification using Quantum Teleportation
The advent of quantum computers introduces new challenges to the fields of encryption and authentication. Traditional cryptographic systems, such as RSA and ECC, rely on mathematical problems that are computationally hard for classical computers to ...