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Software for topological qubits engineering

Reference number
Coordinator Quantum and Classical Solutions International AB
Funding from Vinnova SEK 927 000
Project duration November 2021 - July 2022
Status Completed
Venture Quantum Kick-Start
Call Quantum Kick-Start 2021

Important results from the project

We fulfilled our objective creating a unique software package that can model at the microscopic level the superconducting part of the quantum bit using advanced numerical methods. That includes the perspective of superconducting-nanowire topological quantum bits as well as superconducting-material-based non-topological quantum bits such as Josephson-junction-based qubits. That software opens up the possibility to use computers for modeling and design of superconducting parts of quantum bits in quantum technology industry.

Expected long term effects

The new software package was created and integrated in our software. That software opens up the possibility to use computers for modeling and design of superconducting parts of quantum bits in quantum technology industry. Subscription of this software will be available to quantum technology companies and research institutions.

Approach and implementation

The software modules implement the state-of-the-art features of CUDA and OpenGL architecture for massively parallel computing and real-time graphic interface, respectively. Superconducting condensate is treated within quantum field theory including self-consistent mean-field theory based on Bogoliubov-de Gennes approach.

External links

The project description has been provided by the project members themselves and the text has not been looked at by our editors.

Last updated 19 August 2022

Reference number 2021-03852