gebiet_Application projects

  • QI-TraSiCo

    We develop customized compilation strategies for the quantum computers of the DLR Quantum Computing Initiative and tailor-made quantum algorithms for difficult, industry-relevant computational problems.

  • QCOptSens

    Quantum-optimised calibration of high-resolution hyperspectral camera systems

  • Attraqt’em

    Quantum computers for planning and operating the energy systems of the future.

  • ToQuaFlics

    Simulating the flow around aeroplanes with quantum computers

  • QCMobility

    Exploring the potential of quantum comptuers for highly relevant and critical applications from mobility.

  • QUANTITY

    Investigating cryptosystems in the age of powerful quantum computers

  • QCMineral

    Optimisation of process-relevant material characteristics for industrial applications.

  • NeMoQC

    Neuromorphic quantum computing for optimisation and prediction tasks with use cases from aerodynamics and aeroelastics.

  • QMPC

    Quantum optimised solutions for scheduling problems

  • Klim-QML

    Improved climate models using quantum machine learning for robust technology assessment and mitigation recommendations.

  • QLearning

    Investigating the suitability of quantum processors for reinforcement learning.

  • QuantiCoM

    Tools for rapid material discovery and development for industrial applications

  • QUA-SAR

    Quantum computing for processing and optimisation tasks in radar remote sensing

  • BASIQ

    We simulate battery materials on the DLR QCI’s quantum computers

  • QCoKaIn

    Automatic anomaly detection in large amounts of data using causal inference