Quantum computing, with its vast potential, is fundamentally shaped by the intricacies of quantum mechanics, which both empower and constrain its capabilities. The development of a universal, robust quantum programming language has emerged as a key research focus in this rapidly evolving field. This paper explores Silq, a recent high-level quantum programming language, highlighting its strengths and unique features. We aim to share our insights on designing and implementing high-level quantum algorithms using Silq, demonstrating its practical applications and advantages for quantum programming.
High-level quantum algorithm programming using Silq / Bezganovic, Viktorija; Lewis, Marco; Soudjani, Sadegh; Zuliani, Paolo. - (2025), pp. 1-11. (Intervento presentato al convegno QUASAR 2025: 2nd Workshop on Quantum Algorithms, Software and Applied Research tenutosi a Notre Dame, IN; USA) [10.1145/3731545.3744152].
High-level quantum algorithm programming using Silq
Zuliani, Paolo
2025
Abstract
Quantum computing, with its vast potential, is fundamentally shaped by the intricacies of quantum mechanics, which both empower and constrain its capabilities. The development of a universal, robust quantum programming language has emerged as a key research focus in this rapidly evolving field. This paper explores Silq, a recent high-level quantum programming language, highlighting its strengths and unique features. We aim to share our insights on designing and implementing high-level quantum algorithms using Silq, demonstrating its practical applications and advantages for quantum programming.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
