Prof. Eduard Alarcón - Technical University of Catalunya (UPC BarcelonaTech)
"The QUADRATURE project: On silicon spin qubit microwave photon cavity-mediated scalable modular architectures orchestrated through quantum and wireless communication networks"
Dr. Carmen G. Almudever - Technical University of Valencia
"The QUADRATURE project: On silicon spin qubit microwave photon cavity-mediated scalable modular architectures orchestrated through quantum and wireless communication networks"
"A spin qubit users manual" Designing, modelling and
building spin-qubit devices is challenging enough that we can forget about
future users of these systems.
This presentation surveys common features of the spin-qubit modality from an
algorithm execution point of view.
We will highlight some of the characteristic features of spin qubit systems and
how they compare with other quantum modalities.
Some of these features, such as long integration times, are often assumed by
system designers, but might surprise a quantum algorithm developer.
Other features, such as limited qubit connectivity patterns have several
proposed solutions with important trade-offs for the end user.
By showing the road bumps on the way to implementing a simple circuit we hope
to bridge the gap between qubit engineering and algorithm execution, and
inspire engineering challenges to improve spin qubit systems.
Prof. Dr. Stefan van Waasen - Peter Grünberg Institute
"Title TBC"
Scalability of quantum computers is one of the emerging challenges in the field with the challenge to find possible ways to bring some of the classical functionalities into the fridge. Independent of the qubit technology semiconductor-based electronics and here esp. cryo CMOS can be one of the game changers for this challenge. The Integrated Computing Architectures Institute (ICA) at Forschungszentrum Jülich is specialized in chip-based solution developing system approaches and cryo CMOS solutions for solid-state quantum computing. The presentation will give an overview covering cryo device characterization and modeling, mK-biasing DACs with integration results, and investigations on readout schemes. Further it will be given a view inside system design approaches as well as findings and co-design methodologies.