Multipurpose Quantum Network Simulators: A comparative study
Resumo
Quantum technology is transforming computing and communication, with quantum networks at the forefront. This paper evaluates multipurpose quantum network simulators, crucial for advancing these networks. Comparing 14 simulators, we highlight their adaptability across applications and configurations, aiding investigations into entanglement-based communication and quantum entanglement scenarios. By assisting researchers in selecting suitable simulators, our study facilitates practical implementation of quantum technology across multipurpose applications.Referências
Abelém, A., Vardoyan, G., and Towsley, D. (2020). Quantum internet: The future of internetworking. In Minicursos do XXXVIII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 48–90. SBC.
Abreu, D., Abelém, A., and Rothenberg, C. R. E. (2022). Desafios e oportunidades de pesquisa para o roteamento em redes quânticas. In Anais do II Workshop de Comunicação e Computação Quântica, pages 37–42. SBC.
Chen, L., Xue, K., Li, J., Yu, N., Li, R., Sun, Q., and Lu, J. (2023). Simqn: a network-layer simulator for the quantum network investigation. IEEE Network.
Dahlberg, A. and Wehner, S. (2018). Simulaqron—a simulator for developing quantum internet software. Quantum Science and Technology, 4(1):015001.
DiAdamo, S., Nötzel, J., Zanger, B., and Beşe, M. M. (2021). Qunetsim: A software framework for quantum networks. IEEE Transactions on Quantum Engineering, 2:1–12.
Satoh, R., Hajdušek, M., Benchasattabuse, N., Nagayama, S., Teramoto, K., Matsuo, T., Metwalli, S. A., Pathumsoot, P., Satoh, T., Suzuki, S., et al. (2022). Quisp: a quantum internet simulation package. In 2022 IEEE International Conference on Quantum Computing and Engineering (QCE), pages 353–364. IEEE.
Soler, D., Cillero, I., Dafonte, C., Fernández-Veiga, M., Vilas, A. F., and Nóvoa, F. J. (2024). Qkdnetsim+: Improvement of the quantum network simulator for ns-3. SoftwareX, 26:101685.
Tavares, D., Pimentel, A., Abreu, D., and Abelém, A. (2023). Estudo e simulaçao de uma rede de distribuiçao de chaves quânticas de alto desempenho para o campus da ufpa. In Anais da III Escola Regional de Alto Desempenho Norte 2 e III Escola Regional de Aprendizado de Máquina e Inteligência Artificial Norte 2, pages 17–20. SBC.
Wu, X., Kolar, A., Chung, J., Jin, D., Zhong, T., Kettimuthu, R., and Suchara, M. (2021). Sequence: a customizable discrete-event simulator of quantum networks. Quantum Science and Technology, 6(4):045027.
Abreu, D., Abelém, A., and Rothenberg, C. R. E. (2022). Desafios e oportunidades de pesquisa para o roteamento em redes quânticas. In Anais do II Workshop de Comunicação e Computação Quântica, pages 37–42. SBC.
Chen, L., Xue, K., Li, J., Yu, N., Li, R., Sun, Q., and Lu, J. (2023). Simqn: a network-layer simulator for the quantum network investigation. IEEE Network.
Dahlberg, A. and Wehner, S. (2018). Simulaqron—a simulator for developing quantum internet software. Quantum Science and Technology, 4(1):015001.
DiAdamo, S., Nötzel, J., Zanger, B., and Beşe, M. M. (2021). Qunetsim: A software framework for quantum networks. IEEE Transactions on Quantum Engineering, 2:1–12.
Satoh, R., Hajdušek, M., Benchasattabuse, N., Nagayama, S., Teramoto, K., Matsuo, T., Metwalli, S. A., Pathumsoot, P., Satoh, T., Suzuki, S., et al. (2022). Quisp: a quantum internet simulation package. In 2022 IEEE International Conference on Quantum Computing and Engineering (QCE), pages 353–364. IEEE.
Soler, D., Cillero, I., Dafonte, C., Fernández-Veiga, M., Vilas, A. F., and Nóvoa, F. J. (2024). Qkdnetsim+: Improvement of the quantum network simulator for ns-3. SoftwareX, 26:101685.
Tavares, D., Pimentel, A., Abreu, D., and Abelém, A. (2023). Estudo e simulaçao de uma rede de distribuiçao de chaves quânticas de alto desempenho para o campus da ufpa. In Anais da III Escola Regional de Alto Desempenho Norte 2 e III Escola Regional de Aprendizado de Máquina e Inteligência Artificial Norte 2, pages 17–20. SBC.
Wu, X., Kolar, A., Chung, J., Jin, D., Zhong, T., Kettimuthu, R., and Suchara, M. (2021). Sequence: a customizable discrete-event simulator of quantum networks. Quantum Science and Technology, 6(4):045027.
Publicado
20/05/2024
Como Citar
ABREU, Diego; PIMENTEL, Arthur; MORAES, Polyana; TAVARES, David; VELOSO, Alan; ABELÉM, Antônio.
Multipurpose Quantum Network Simulators: A comparative study. In: WORKSHOP DE REDES QUÂNTICAS, 1. , 2024, Niterói/RJ.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2024
.
p. 25-30.
DOI: https://doi.org/10.5753/wqunets.2024.3223.
