Quantum inspire - Qutech's platform for co-development and collaboration in quantum computing
Thorsten Last (TU Delft - QuTech Advanced Research Centre, TU Delft - BUS/TNO STAFF, TNO)
Nodar Samkharadze (TU Delft - QCD/Vandersypen Lab, TNO, TU Delft - QuTech Advanced Research Centre)
Pieter Eendebak (TU Delft - QuTech Advanced Research Centre, TU Delft - BUS/TNO STAFF, TNO)
Richard Versluis (TU Delft - BUS/TNO STAFF, TNO, TU Delft - QuTech Advanced Research Centre)
Xiao Xue (Kavli institute of nanoscience Delft, TU Delft - QuTech Advanced Research Centre, TU Delft - QCD/Vandersypen Lab)
Amir Sammak (TU Delft - QuTech Advanced Research Centre, TU Delft - BUS/TNO STAFF, TNO)
Delphine Brousse (TNO, TU Delft - QuTech Advanced Research Centre, TU Delft - BUS/TNO STAFF)
Kelvin Loh (TNO)
Henk Polinder (TNO)
Giordano Scappucci (TU Delft - QuTech Advanced Research Centre, TU Delft - QCD/Scappucci Lab, Kavli institute of nanoscience Delft)
Menno Veldhorst (TU Delft - QuTech Advanced Research Centre, TU Delft - Applied Sciences, Kavli institute of nanoscience Delft)
Lieven Vandersypen (Kavli institute of nanoscience Delft, TU Delft - Applied Sciences, TU Delft - QuTech Advanced Research Centre)
Klára Maturová (TU Delft - BUS/TNO STAFF, TNO, TU Delft - QuTech Advanced Research Centre)
Jeremy Veltin (TNO)
Garrelt Alberts (TU Delft - BUS/Quantum Delft, TNO, TU Delft - QuTech Advanced Research Centre)
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Abstract
The mission of QuTech is to bring quantum technology to industry and society by translating fundamental scientific research into applied research. To this end we are developing Quantum Inspire (QI), a full-stack quantum computer prototype for future co-development and collaborative R&D in quantum computing. A prerelease of this prototype system is already offering the public cloud-based access to QuTech technologies such as a programmable quantum computer simulator (with up to 31 qubits) and tutorials and user background knowledge on quantum information science (www.quantum-inspire.com). Access to a programmable CMOS-compatible Silicon spin qubit-based quantum processor will be provided in the next deployment phase. The first generation of QI's quantum processors consists of a double quantum dot hosted in an in-house grown SiGe/28Si/SiGe heterostructure, and defined with a single layer of Al gates. Here we give an overview of important aspects of the QI full-stack. We illustrate QI's modular system architecture and we will touch on parts of the manufacturing and electrical characterization of its first generation two spin qubit quantum processor unit. We close with a section on QI's qubit calibration framework. The definition of a single qubit Pauli X gate is chosen as concrete example of the matching of an experiment to a component of the circuit model for quantum computation.