Logical Qubits (LogiQ)
The LogiQ Program seeks to overcome the limitations of current multi-qubit systems by building a logical qubit from a number of imperfect physical qubits. LogiQ envisions that program success will require a multi-disciplinary approach that increases the fidelity of quantum gates, state preparation, and qubit readout; improves classical control; implements active quantum feedback; has the ability to reset and reuse qubits; and performs further system improvements.
Performers (Prime Contractors)
Delft University of Technology; Duke University; IBM - T.J. Watson Research Center; University of Innsbruck
Related Program(s)
Research Area(s)
Related Publications
To access LogiQ program-related publications, please visit Google Scholar.
Related Article(s)
- To upgrade quantum computers, researchers look to materials science
- US investing in quantum tech at Sydney University
- University of Sydney receives quantum computing grant from US intelligence
- IBM, Alphabet Push To Develop Practical, Operational Quantum Computers
- IBM, Microsoft and Alphabet working towards the dawn of quantum computing
- Why the Intelligence Community Wants in On Quantum Computing
- Business Machines: IARPA Awards IBM Grant to Further Develop Quantum Computer
- IARPA Awards IBM Grant to Further Develop Quantum Computer
- US Intelligence Launches Practical Quantum Computing Research Program
- A little bit, better
- IARPA wants a quantum leap
The Logical Qubits (LogiQ) Program seeks to overcome the limitations of current multi-qubit systems, described in the previous paragraph, by building a logical qubit from a number of imperfect physical qubits. LogiQ envisions that program success will require a multi-disciplinary approach that increases the fidelity of quantum gates, state preparation, and qubit readout; improves classical control; implements active quantum feedback; has the ability to reset and reuse qubits; and performs further system improvements.