• jeudi 11 janvier 2018

QUEST & Séminaire Nanoélectronique Quantique : Nicolas Didier

09h30 // Salle « Remy Lemaire » (K223)

Institut Néel
25 avenue des martyrs - Grenoble

Hybrid quantum/classical computing on a 19-qubit processor based on parametrically-activated entangling gates
Nicolas Didier (Rigetti Computing, California)

Superconducting devices are one of the most promising platforms for building quantum computers, but demonstrating fault-tolerance on any quantum computing implementation remains a challenge. In recent years new hybrid quantum/classical algorithms targeting near-term devices have been proposed, focusing on short-depth parameterized quantum circuits and using quantum computation as a subroutine embedded in a larger classical optimization loop, without the immediate need for fault-tolerance. Rigetti Computing has built a flexible computing platform targeting precisely such hybrid applications, relying on custom entangling gates based on parametrically-activated interactions. In this talk I will explain the physics behind these two-qubit gates, how it enables the implementation of two distinct classes of entangling operations, and describe many features that make this architecture attractive from a scalability perspective. Finally, I will present how this gate architecture was used to demonstrate a hybrid algorithm for an unsupervised machine learning task known as clustering on a 19-qubit processor.

References :
arXiv:1712.05771, arXiv:1706.06570, arXiv:1706.06562, arXiv:1706.06566, arXiv:1608.03355, www.rigetti.com.

Contact : Nicolas Didier

Retrouver tous les "Séminaires Nanoélectronique Quantique" passés et à venir sur :



Séminaire Nanoélectronique Quantique : Richard deBlock (LPS Orsay)

mardi 15 mai 2018 - 14h00 - Salle « Remy Lemaire » (K223)

Richard deBlock (LPS Orsay) Retrouver tous (...)

en savoir +


avril 2018 :

mars 2018 | mai 2018