dr hab. Bartłomiej Gardas Email: Orcid ID: 0000-0002-1454-1591Strona WWW: Home pageStanowisko: profesor instytutuZespół badawczy Zespół Kwantowych Systemów Informatyki Pokój: 103 Horizontal TabsPublikacje Biblio RSS Submitted 1. Śmierzchalski, T., Ł. Pawela, B. Gardas, Z. Puchała, M. Koniorczyk, and K. Domino, "Quantum readiness for scheduling of Automatic Guided Vehicles (AGVs) as job-shop problem", arXiv preprint, vol. arXiv:2309.03088, Submitted. 2. Śmierzchalski, T., Z. Mzaouali, S. Deffner, and B. Gardas, "Efficiency Optimization in Quantum Computing: Balancing Thermodynamics and Computational Performance", arXiv preprint, vol. arXiv:2307.14022, Submitted. 2023 3. Domino, K., M. Koniorczyk, K. Krawiec, K. Jałowiecki, S. Deffner, and B. Gardas, "Quantum annealing in the NISQ era: railway conflict management", Entropy, vol. 25, 01/2023. 2022 4. Śmierzchalski, T., Ł. Pawela, Z. Puchała, T. Trzciński, and B. Gardas, "Post-Error Correction for Quantum Annealing Processor using Reinforcement Learning", International Conference on Computational Science (ICCS 2022): Lecture Notes in Computer Science , 07/2022. (322.6 KB) 5. Soriani, A., P. Nazé, M. V. S. Bonança, B. Gardas, and S. Deffner, "Assessing performance of quantum annealing with non-linear driving", Physical Review A, vol. 105, 2022. (1.9 MB) 6. Soriani, A., P. Naze, M. V. S. Bonancca, B. Gardas, and S. Deffner, "The three phases of quantum annealing: fast, slow, and very slow", Physical Review A, vol. 105, 2022. (1.71 MB) 2021 7. Rams, M., M. Mohseni, D. Eppens, K. Jałowiecki, and B. Gardas, "Approximate optimization, sampling, and spin-glass droplet discovery with tensor networks", Phys. Rev. E, vol. 104, Aug, 2021. (3.74 MB) 8. Jałowiecki, K., M. Rams, and B. Gardas, "Brute-forcing spin-glass problems with CUDA", Comput. Phys. Commun, vol. 260, 11/2020, 2021. (910.46 KB) 2020 9. Jałowiecki, K., A. Więckowski, P. Gawron, and B. Gardas, "Parallel in time dynamics with quantum annealers", Sci. Rep, vol. 10, 2020. (1.58 MB) 2019 10. Czartowski, J., K. Szymański, B. Gardas, Y. Fyodorov, and K. Życzkowski, "Separability gap and large deviation entanglement criterion", Phys. Rev. A, vol. 100, pp. 042326, 2019. (478 KB) 11. Więckowski, A., S. Deffner, and B. Gardas, "Disorder-assisted graph coloring on quantum annealers", Phys. Rev. A, vol. 100, 12/2019. (745.68 KB) 2018 12. Gardas, B., and A. Ptok, "Counting defects in quantum computers with Graphics Processing Units", J. Comput. Phys, vol. 366, pp. 320 - 326, 2018. (1.04 MB) 13. Gardas, B., and S. Deffner, "Quantum fluctuation theorem for error diagnostics in quantum annealers", Sci. Rep, vol. 8, pp. 17191, 2018. (1.74 MB) 14. Gardas, B., M. Rams, and J. Dziarmaga, "Quantum neural networks to simulate many-body quantum systems", Phys. Rev. B, vol. 98, pp. 184304, Nov, 2018. (805.73 KB) 15. Gardas, B., J. Dziarmaga, W. Zurek, and M. Zwolak, "Defects in Quantum Computers", Sci. Rep, vol. 8, pp. 4539, 2018. (1.63 MB) 2017 16. Gardas, B., J. Dziarmaga, and W. Zurek, "Dynamics of the quantum phase transition in the one-dimensional Bose-Hubbard model: Excitations and correlations induced by a quench", Phys. Rev. B, vol. 95, pp. 104306, Mar, 2017. (902.74 KB) 2016 17. Francuz, A., J. Dziarmaga, B. Gardas, and W. Zurek, "Space and time renormalization in phase transition dynamics", Phys. Rev. B, vol. 93, pp. 075134, Feb, 2016. (3 MB) 18. Gardas, B., S. Deffner, and A. Saxena, "Non-hermitian quantum thermodynamics", Sci. Rep, vol. 6, pp. 23408, 2016. (1.17 MB) 19. Gardas, B., S. Deffner, and A. Saxena, "Repeatability of measurements: Non-Hermitian observables and quantum Coriolis force", Phys. Rev. A, vol. 94, pp. 022121, Aug, 2016. (275.27 KB) 20. Gardas, B., S. Deffner, and A. Saxena, "PT-symmetric slowing down of decoherence", Phys. Rev. A, vol. 94, pp. 040101, Oct, 2016. (160.32 KB) 2015 21. Gardas, B., J. Łuczka, A. Ptok, and J. Dajka, "Energetics of an rf SQUID Coupled to Two Thermal Reservoirs", PLoS One, vol. 10, pp. 1-10, 12, 2015. (1.12 MB) 22. Gardas, B., and S. Deffner, "Thermodynamic universality of quantum Carnot engines", Phys. Rev. E, vol. 92, pp. 042126, Oct, 2015. (557.62 KB) 23. Januszewski, M., A. Ptok, D. Crivelli, and B. Gardas, "GPU-based acceleration of free energy calculations in solid state physics", Comput. Phys. Comm, vol. 192, pp. 220 - 227, 2015. (931.78 KB) 2014 24. Gardas, B., and J. Dajka, "Reply to “Comment on: ‘Multi-photon Rabi model: Generalized parity and its applications’ [Phys. Lett. A 377 (2013) 3205]” [Phys. Lett. A 378 (2014) 1969]", Phys. Lett. A, vol. 378, pp. 1970, 2014. 25. Gardas, B., and J. Dajka, "Reply to Comment on `Initial states of qubit–environment models leading to conserved quantities'", J. Phys. A: Math. Theor, vol. 47, pp. 168002, apr, 2014. Strony12następna ›ostatnia » Projekty 1. Optymalne i probabilistyczne uczenie operacji kwantowych (2022/47/B/ST6/02380, 2023 - 2027) 2. Sonata BIS 10: Symulacje układów fizycznych za pomocą technologii wyżarzania niedalekiej przyszłości (2020/38/E/ST3/00269, 2021 - 2026) 3. Narodowa Infrastruktura Superkomputerowa dla EuroHPC — EuroHPC PL (POIR.04.02.00-00-D014/20-00, 2021 - 2023) 4. Komputery kwantowe w najbliższej przyszłości: wyzwania, optymalne implementacje i zastosowania praktyczne (POIR.04.04.00-00-17C1/18-00, 2019 - 2023)