Quantum Software Internship: Qudit Networking Research

Internship at the University of Parma’s Quantum Software Laboratory

Open to PhD Candidates | Internship period: 3 months, starting mid-September

The Quantum Software Laboratory has recently started investigating high-dimensional quantum internet applications and distributed quantum computing, where high-dimensional means that qudits are considered instead of the conventional 2-level qubits. Qudits lead to better decompositions of known algorithms for qubits (smaller circuit depths) with an important reduction of the number of error-prone two-body operations (1). Furthermore, and even more importantly in the long term, the larger Hilbert space of qudits can be exploited to dramatically reduce the resource overhead typical of multi-qubit schemes (2), also concerning quantum communication (3,4).

The proposed internship activity will focus on studying potential high-dimensional quantum internet applications. This means learning how to implement qudit-based quantum algorithms and protocols, by reviewing the existing literature (e.g., (5,6,7)), and designing novel application-driven solutions. At the end of the internship period, the intern will provide a report describing the research activity carried out.

The ideal candidate is a PhD student with some expertise in quantum networking, quantum algorithms, and quantum software development.

References

(1) L. E. Fischer, A. Chiesa, F. Tacchino, D. J. Egger, S. Carretta, I. Tavernelli, Universal qudit gate synthesis for transmons, PRX Quantum .

(2) A. Chiesa, P. Santini, E. Garlatti, F. Luis, S. Carretta, Molecular nanomagnets: a viable path toward quantum information processing? Rep. Progr. Phys. 87 (3)

(3) D. Cozzolino, B. Da Lio, D. Bacco, L. K. Oxenlowe, High-Dimensional Quantum Communication: Benefits, Progress, and Future Challenges, Advanced Quantum Technologies

(4) H. Yu et al., Quantum key distribution implemented with d-level timebin entangled photons, Nature Communications

(5) A. S. Nikolaeva et al., Efficient realization of quantum algorithms with qudits, EPJ Quantum technology

(6) F. Pudda et al., Generalised Quantum Gates for Qudits and their Application in Quantum Fourier Transform, arXiv. )

(7) MQT Qudits Tutorial

Michele Amoretti, Director of Quantum Software Lab at the Department of Engineering and Architecture

About Quantum Software Lab

Interested in this internship? Send an application on or before 31 May 2026!

To submit an application, send your CV (max 2 pages) and motivation letter to on or before 31 May 2026. Kindly write “INTERNSHIP APPLICATION” on the subject line of your email.

• List of eligible countries: Belgium, Bulgaria, Croatia, Cyprus, Czechia, Estonia, Finland, Greece, Hungary, Lithuania, Malta, Romania, Slovakia, Slovenia, Sweden

The Quantum Software Lab team led by Prof. Michele Amoretti

University of Parma brings expertise from computer engineering and physics in the domain of quantum compiling for local/distributed quantum computing, among others.

Explore our internship opportunities at QIA sites across Europe, and get the chance to be part of our moonshot ...

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