Multiverse: A Simulator for Evaluating Entanglement Routing in Quantum Networks

Amar Abane; Junxiao Shi; Van Sy Mai; Abderrahim Amlou; Abdella Battou

arXiv:2512.22937·quant-ph·December 30, 2025

Multiverse: A Simulator for Evaluating Entanglement Routing in Quantum Networks

Amar Abane, Junxiao Shi, Van Sy Mai, Abderrahim Amlou, Abdella Battou

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TL;DR

This paper introduces MQNS, a versatile simulator designed to evaluate entanglement routing strategies in quantum networks with dynamic configurations, supporting various operations and ensuring fair comparisons.

Contribution

MQNS provides a modular, architecture-agnostic simulation platform for rapid, reproducible evaluation of entanglement routing in quantum networks.

Findings

01

Supports runtime-configurable purification, swapping, and memory management

02

Enables fair comparisons across different quantum network paradigms

03

Facilitates future emulation and research in quantum networking

Abstract

We present MQNS, a discrete-event simulator for rapid evaluation of entanglement routing under dynamic, heterogeneous configurations. MQNS supports runtime-configurable purification, swapping, memory management, and routing, within a unified qubit lifecycle and integrated link-architecture models. A modular, minimal design keeps MQNS architecture-agnostic, enabling fair, reproducible comparisons across paradigms and facilitating future emulation.

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Taxonomy

TopicsQuantum Computing Algorithms and Architecture · Quantum Information and Cryptography · Cloud Computing and Resource Management