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Home   /   Post Doctorat   /   Design of 2D Matrix For Silicum Quantum computing with Validation by Simulation

Design of 2D Matrix For Silicum Quantum computing with Validation by Simulation

Electronics and microelectronics - Optoelectronics Emerging materials and processes for nanotechnologies and microelectronics Engineering sciences Technological challenges


The objective is to design a 2D matrix structure for quantum computing on silicon in order to consider structures of several hundred physical Qubits.

In particular the subject will be focused on:
- The functionality of the structure (Coulomb interaction, RF and quantum)
- Manufacturing constraints (simulation and realistic process constraint)
- The variability of the components (Taking into account the variability parameter and realistic defectivity)
- The constraints induced on the algorithms (error correction code)
- Scalability of the structure to thousands of physical Qubits

The candidate will work within a project of more than fifty people with expertise covering the design, fabrication, characterization and modeling of spin qubits as well as related disciplines (cryoelectronics, quantum algorithms, quantum error correction, …)


Département Composants Silicium (LETI)
Service Caractérisation, Conception et Simulation
Laboratoire de Simulation et Modélisation
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