Archivio Istituzionale della RicercaThe integration of quantum computers within classical High-Performance Computing (HPC) infrastructures is receiving increasing attention, with the former expected to serve as accelerators for specific computational tasks. However, combining HPC and quantum computers presents significant technical challenges, including resource allocation. This paper presents a novel malleability-based approach, alongside a workflow-based strategy, to optimize resource utilization in hybrid HPC-quantum workloads. With both these approaches, we can release classical resources when computations are offloaded to the quantum computer and reallocate them once quantum processing is complete. Our experiments with a hybrid HPC-quantum use case show the benefits of dynamic allocation, highlighting the potential of those solutions.
Dynamic Solutions for Hybrid Quantum-HPC Resource Allocation / Rocco, Roberto; Rizzo, Simone; Barbieri, Matteo; Bettonte, Gabriella; Boella, Elisabetta; Ganz, Fulvio; Iserte, Sergio; Peña, Antonio J.; Sandås, Petter; Scionti, Alberto; Terzo, Olivier; Vercellino, Chiara; Vitali, Giacomo; Viviani, Paolo; Frassineti, Jonathan; Marzella, Sara; Ottaviani, Daniele; Colonnelli, Iacopo; Gregori, Daniele. - (In corso di stampa). (Intervento presentato al convegno 2025 IEEE International Conference on Quantum Computing and Engineering (QCE) tenutosi a Albuquerque, NM (USA)) [10.48550/arXiv.2508.04217].
Dynamic Solutions for Hybrid Quantum-HPC Resource Allocation
Simone Rizzo;Elisabetta Boella;Alberto Scionti;Chiara Vercellino;Giacomo Vitali;Paolo Viviani;
In corso di stampa
Abstract
The integration of quantum computers within classical High-Performance Computing (HPC) infrastructures is receiving increasing attention, with the former expected to serve as accelerators for specific computational tasks. However, combining HPC and quantum computers presents significant technical challenges, including resource allocation. This paper presents a novel malleability-based approach, alongside a workflow-based strategy, to optimize resource utilization in hybrid HPC-quantum workloads. With both these approaches, we can release classical resources when computations are offloaded to the quantum computer and reallocate them once quantum processing is complete. Our experiments with a hybrid HPC-quantum use case show the benefits of dynamic allocation, highlighting the potential of those solutions.
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2508.04217v1.pdf
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https://hdl.handle.net/11583/3003240