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View article: Towards a Dutch hybrid quantum/HPC infrastructure
Towards a Dutch hybrid quantum/HPC infrastructure Open
Quantum Inspire has taken important steps to enable quantum applications by developing a setting that allows the execution of hybrid algorithms. Currently, the setting uses a classical server (HPC node) co-located with the quantum computer…
View article: Towards a Dutch Hybrid Quantum/HPC Infrastructure
Towards a Dutch Hybrid Quantum/HPC Infrastructure Open
Quantum Inspire has taken important steps to enable quantum applications by developing a setting that allows the execution of hybrid algorithms. Currently, the setting uses a classical server (HPC node) co-located with the quantum computer…
View article: Synergy between quantum computing and semiconductor technology
Synergy between quantum computing and semiconductor technology Open
As part of the National Agenda for Quantum Technology, QuTech (TU Delft and TNO) has agreed to make quantum technology accessible to society and industry via its full-stack prototype: Quantum Inspire. This system includes two different typ…
View article: Spiderweb Array: A Sparse Spin-Qubit Array
Spiderweb Array: A Sparse Spin-Qubit Array Open
One of the main bottlenecks in the pursuit of a large-scale--chip-based quantum computer is the large number of control signals needed to operate qubit systems. As system sizes scale up, the number of terminals required to connect to off-c…
View article: Quantum Inspire: QuTech’s platform for co-development and collaboration in quantum computing
Quantum Inspire: QuTech’s platform for co-development and collaboration in quantum computing Open
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 …
View article: Consequences of unitary evolution of coupled qubit-resonator systems for stabilizing circuits in surface codes
Consequences of unitary evolution of coupled qubit-resonator systems for stabilizing circuits in surface codes Open
Surface codes based on stabilizer circuits may pave the way for large scale fault-tolerant quantum computation. The surface code uses only single- and two-qubit gates and the error threshold falls close to 1% for a large range of errors. A…
View article: Scalable Quantum Circuit and Control for a Superconducting Surface Code
Scalable Quantum Circuit and Control for a Superconducting Surface Code Open
We present a scalable scheme for executing the error-correction cycle of a monolithic surface-code fabric composed of fast-flux-tunable transmon qubits with nearest-neighbor coupling. An eight-qubit unit cell forms the basis for repeating …
View article: Semi-analytical RWA formalism to solve Schrödinger equations for multi-qudit systems with resonator couplings
Semi-analytical RWA formalism to solve Schrödinger equations for multi-qudit systems with resonator couplings Open
In this study, we develop a semi-analytical framework to solve generalized Jaynes-Tavis-Cummings Hamiltonians describing multi-qudit systems coupled via EM resonators. Besides the multi-level generalization we allow for an arbitrary number…
View article: A heterogeneous quantum computer architecture
A heterogeneous quantum computer architecture Open
In this paper, we present a high level view of the heterogeneous quantum computer architecture as any future quantum computer will consist of both a classical and quantum computing part. The classical part is needed for error correction as…