Si based quantum computer architecture and associated engineering challenges
Invited
Abstract
Si-based QC appears as a promising approach to build a quantum processor; thanks to the size of the qubits, the quality of the quantum gates and the VLSI ability to fabricate billions of closely identical objects. The quality of Si spin qubits has improved very fast with the introduction of isotopically purified 28Si.
In this presentation, we will share our quantum accelerator architecture and will present progress made towards the actual demonstration of this architecture. We will show data ranging from material development to packaging with insights in device design. We will review the technological challenges that are still to be tackled. We will highlight how we leverage tight-binding simulations to develop a QCAD activity (quantum bit computer aided design)
In this presentation, we will share our quantum accelerator architecture and will present progress made towards the actual demonstration of this architecture. We will show data ranging from material development to packaging with insights in device design. We will review the technological challenges that are still to be tackled. We will highlight how we leverage tight-binding simulations to develop a QCAD activity (quantum bit computer aided design)
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Presenters
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Maud Vinet
CEA-LETI, CEA Grenoble
Authors
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Maud Vinet
CEA-LETI, CEA Grenoble
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Pierre-Andre Mortemousque
CEA Grenoble
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Louis Hutin
CEA Grenoble
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Benoit Bertrand
CEA Grenoble
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Xavier Jehl
CEA-IRIG, CEA Grenoble
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Yann-Michel Niquet
CEA Grenoble
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Gaël Pillonnet
CEA-LETI, CEA Grenoble
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Gérard Billiot
CEA-LETI, CEA Grenoble
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Marc Sanquer
CEA-IRIG, CEA Grenoble
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Baptiste Jadot
Néel Institute, CNRS
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Emmanuel Charion Chanrion
Néel Institute, CNRS
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Matias Urdampilleta
Néel Institute, CNRS, Institut Néel, CNRS
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Tristan Meunier
Néel Institute, CNRS, Institut Néel, CNRS