Login

Recent Advances in Quantum Computing and Technology (ReAQCT)

19–20 Jun 2024
Bosch Budapest Innovation Campus
Europe/Budapest timezone

Contribution List

54 out of 54 displayed
  1. 64. ReAQCT Opening
    Dr Ákos Csilling (Robert Bosch Kft.)
    19/06/2024, 09:00
  2. 2. Shortcuts to quantum advantage and their relationship to the superconducting platform
    Frank Wilhelm-Mauch
    19/06/2024, 09:20
  3. 3. Materials challenges in quantum sensing with diamond nitrogen-vacancy center
    Ádám Gali
    19/06/2024, 10:00
  4. 9. Munich Quantum Software Stack: Seamlessly Integrating Quantum Computing into HPC
    Jorge Echevarria
    19/06/2024, 11:00
  5. 10. Recent developments in open-source design tools and QPUs
    Eelis Takala
    19/06/2024, 11:20
  6. 11. Hybrid Tree Tensor Networks for Quantum Simulation
    Julian Schuhmacher
    19/06/2024, 11:40
  7. 12. Statistical phase estimation and error mitigation on a superconducting quantum processor
    Nick Blunt
    19/06/2024, 12:00
  8. 14. Architecture considerations for superconducting quantum processors
    Anton Frisk Kockum
    19/06/2024, 14:20
  9. 13. Materials science with quantum computers: use cases and technical work
    Thomas Strohm
    19/06/2024, 14:50

    Materials science will be one of the first domains that benefits from quantum computers. We present industrially important use cases involving new materials, where the otherwise very successful approximative methods with conventional computers cease to provide adequate results and quantum computers will be required. Furthermore, we will discuss algorithms to perform materials simulation with...

    Go to contribution page
  10. 27. Ab-initio theory of nuclear spin flip processes within NV center of diamondvia orbital degrees of freedom
    Gergo Thiering, Gergő Thiering (MTA Wigner FK)
    19/06/2024, 16:00
  11. 16. Bayesian amplitude estimation
    Alexandra Ramoa
    19/06/2024, 16:00
  12. 29. Exchange-driven two-hole spin qubit in Germanium
    Jaime Saez-Mollejo
    19/06/2024, 16:00
  13. 51. Patterns for Quantum Software Engineering
    Michael Bączyk
    19/06/2024, 16:00
  14. 15. Superconducting flux qubits with stacked Josephson junctions
    Alex Kreuzer
    19/06/2024, 16:00
  15. 39. Activation of metrologically useful genuine multipartite entanglement
    Robert Trenyi
    19/06/2024, 16:20
  16. 45. Bichromatic Rabi control of semiconductor qubits
    Zoltán György
    19/06/2024, 16:20
  17. 42. QDsim: A user-friendly toolbox for simulating large-scale quantum dot devices
    Valentina Gualtieri
    19/06/2024, 16:20
  18. 49. Quantum approximated cloning-assisted density matrix exponentiation
    Pablo Rodríguez
    19/06/2024, 16:20
  19. 37. Resilient multi-mode superconducting qubit designed with evolutionary algorithms
    Pablo Garcia Azorin
    19/06/2024, 16:20
  20. 33. In situ Resistance Control of Granular Aluminium Superinductors for Hybrid Circuit Quantum Electrodynamics
    Marián Janík
    19/06/2024, 16:40
  21. 50. Optimizing T and CNOT Gates in Quantum Ripple-Carry Adders and Comparators
    Maxime Remaud
    19/06/2024, 16:40
  22. 46. Piquasso: A Photonic Quantum Computer Simulation Software Platform
    Zoltán Kolarovszki
    19/06/2024, 16:40
  23. 18. Readout error mitigation on a superconducting qubit
    Andras Di Giovanni
    19/06/2024, 16:40
  24. 24. Theory of charge-sensing-based noisy qubit readout of semiconductor qubits
    Domonkos Svastits
    19/06/2024, 16:40
  25. 40. Benchmarking Quantum Computers: Towards a Standard Performance Evaluation Approach
    Rubén Peña Guzmán
    19/06/2024, 17:00
  26. 34. Extensions of Digital-Analog Quantum Computation
    Mikel Garcia de Andoin
    19/06/2024, 17:00
  27. 38. Measuring the current-phase relation in Josephson junction using superconducting resonators
    Peter Makk
    19/06/2024, 17:00
  28. 48. Real-time two-axis control of spin qubits
    Fabrizio Berritta
    19/06/2024, 17:00
  29. 47. Simphony: a python package to simulate point-defect spin dynamics
    Péter Boross
    19/06/2024, 17:00
  30. 4. Conference dinner
    19/06/2024, 19:00

    Hemingway restaurant
    http://hemingway-etterem.hu/
    Budapest, Kosztolányi Dezső tér 2, 1113 Magyarország

    Go to contribution page
  31. 5. Tutorial: Introduction to Quantum Error Correction.
    James Wootton
    20/06/2024, 08:00

    We will look at the basics of quantum error correction, starting from the repetition code and then focusing on surface codes. Finally we’ll consider the outlook towards high-rate LDPC codes.

    Go to contribution page
  32. 58. Fully autonomous control and characterisation of quantum devices
    Natalia Ares
    20/06/2024, 10:00

    Machine learning is rapidly proving indispensable in tuning and characterising quantum devices. By facilitating the exploration of high-dimensional and complex parameter spaces, these algorithms not only allow for the identification of optimal operational conditions but also surpass human experts in the characterisation of different operational regimes. I will present the first fully...

    Go to contribution page
  33. 59. Realization of basic types of Andreev-molecules
    Szabolcs Csonka
    20/06/2024, 10:40
  34. 60. Proof-of-principle experiments for quantum error correction
    James Wootton
    20/06/2024, 11:30
  35. 61. Informationally Complete Measurements and Tensor-Network Methods for Near-Term Quantum Computing
    Matteo Rossi, Zsolt Gellen (Bosch)
    20/06/2024, 12:00
  36. 62. Theory to Enable Practical Quantum Advantage
    Bálint Koczor
    20/06/2024, 12:30
  37. 41. Measurement-free fault-tolerant quantum error correction in near-term devices
    Sascha Heußen, Sascha Heußen
    20/06/2024, 14:00
  38. 21. Improving flux-based gates in superconducting QPUs through model learning of qubit and control stack parameters
    Anurag Saha Roy
    20/06/2024, 14:20
  39. 65. Closing address
    20/06/2024, 14:40
  40. 17. Buildung Continuous Quantum-Classical Bayesian Neural Networks for a Classical Clinical Dataset
    Alona Sakhnenko
    20/06/2024, 14:50
  41. 23. Coherent errors in stabilizer codes caused by quasistatic phase damping
    David Pataki
    20/06/2024, 14:50
  42. 54. Computing Classical Partition Functions: From Onsager and Kaufman to Quantum Algorithms
    Roberto Gargiulo
    20/06/2024, 14:50

    The computation of classical Ising partition functions, coming from statistical physics, is a natural generalization of binary optimization.
    This is a notoriously hard problem in general, which makes it an especially interesting task to consider in the search for practical quantum advantage in near term quantum computers.
    In this work we view classical Ising models (on certain graphs) as...

    Go to contribution page
  43. 56. Quantum-Resilient Security Controls
    Karthikeyan Sabari Ganesan, Vishal Saraswat
    20/06/2024, 14:50

    In digital communication, authentication, integrity, and confidentiality are fundamental security requirements. These properties enable robust security controls such as secure boot, secure update, secure access, and secure TLS across connected devices. However, existing cryptographic algorithms, while effective against classical threats, vulnerable to powerful quantum attacks. In this paper,...

    Go to contribution page
  44. 52. Suppressing photon detection errors in nondeterministic state preparation
    Csaba Czabán, Márton Karácsony, Zoltan Zimboras, Zoltán Koralovszki
    20/06/2024, 14:50

    Photonic quantum computing has recently emerged as a promising candidate for fault-tolerant quantum computing by photonic qubits. These protocols make use of nondeterministic gates, enabling universal quantum computation.
    However, the suggested solutions heavily use particle number resolving detectors (PNRDs), which are experimentally hard to realize and are usually biased in practice. We...

    Go to contribution page
  45. 43. Comparison of gradient and derivative-free learning methods for quantum circuit Born machine
    Vlastimil Hudeček
    20/06/2024, 15:10
  46. 20. Cumulant evolution and full counting statistics in infinite temperature quantum spin chains
    Angelo Valli
    20/06/2024, 15:10
  47. 28. Leakage mobility in superconducting qubits as a leakage reduction unit
    Gyorgy Geher, Gyorgy Pal Geher
    20/06/2024, 15:10
  48. 57. QuaCiDe: A General Purpose Quantum Circuit Design and Simulation Interface
    Asimakis Kydros
    20/06/2024, 15:10

    A circuit design interface for simulation of quantum circuits is presented. This simple but powerful tool aims to enable and improve experimentation in the field of quantum computing, either for professional or amateur usage. It provides an intuitive, automated, easy-to-use environment for building algorithms using the circuit model of quantum computation, while freeing the experimenter from...

    Go to contribution page
  49. 30. Reinforcement Learning in Bayesian Hamiltonian Tracking for Noise-Driven Coherent Rotation of a Spin Qubit
    Jan Adrian Krzywda
    20/06/2024, 15:10
  50. 55. An overview on quantum algorithms for amplitude encoding of classical data into quantum computers
    Javier González Conde
    20/06/2024, 15:30

    Classical information loading is a crucial task for many quantum algorithms, playing a fundamental role in the field of quantum machine learning. Consequently, the inefficiency of this loading process becomes a significant bottleneck for the application of these algorithms. In this context, we present and compare algorithms for the amplitude classical data into a quantum computer.

    We...

    Go to contribution page
  51. 19. Fault-tolerant quantum computing with the parity code and noise-biased qubits
    Anette Messinger
    20/06/2024, 15:30
  52. 53. Homodyne versus Heterodyne for Quantum Measurement
    Hamid Tebyanian
    20/06/2024, 15:30

    In this paper, we study two well-characterized continuous variable detections, homodyne and heterodyne, and then compare their performance in phase keying or amplitude modulation schemes where indistinguishable states are being measured. We compare their performance in terms of generation rate and amount of extractable information necessary for quantum secure applications.

    Go to contribution page
  53. 22. Problem-informed Graphical Quantum Generative Learning
    Bence Bakó
    20/06/2024, 15:30
  54. 44. Recent Advances in Responsible Quantum Computing and Technologies
    Zeki Can Seskir
    20/06/2024, 15:30