Abstract Neutral Atom Quantum Computing (NAQC) emerges as a promising hardware
platform primarily due to its long coherence times and scalability. Additionally, NAQC offers …

The increasing capabilities of quantum computing hardware and the challenge of realizing
deep quantum circuits require fully automated and efficient tools for compiling quantum …

As quantum computing devices increase in size with respect to the number of qubits, two-
qubit interactions become more challenging, necessitating innovative and scalable qubit …

A promising approach for scaling-up trapped-ion quantum computer platforms is by storing
multiple trapped-ion qubit sets ('ion crystals') in segmented microchip traps and to …

Abstraction layers are of paramount importance in software architecture, as they shield the
higher-level formulation of payload computations from lower-level details. Since quantum …

The Quantum Charge Coupled Device (QCCD) architecture offers a modular solution to
enable the realization of trappedion quantum computers with a large number of qubits …

Trapped-ion quantum computers exhibit promising potential to provide platforms for high-
quality qubits and reliable quantum computation. The Quantum Charge Coupled Device …

Quantum software is becoming a key enabler for applying quantum computing to industrial
use cases. This poses challenges to quantum software engineering in providing efficient …

Ion trap technologies have earned significant attention as potential candidates for quantum
information processing due to their long decoherence times and precise manipulation of …

In recent years, the number of hybrid algorithms that combine quantum and classical
computations has been continuously increasing. These two approaches to computing can …