Archivio Istituzionale della RicercaResearchers and industries are increasingly drawn to quantum computing for its computational potential. However, validating new quantum algorithms is challenging due to current quantum device limitations. Software simulators are time and memory-intensive, making hardware emulators an attractive alternative. This article introduces a digital architecture, designed to emulate quantum computing on low-tier Field-Programmable Gate Arrays (FPGAs), supporting Clifford+T and rotational gate sets. It simplifies and accelerates quantum algorithm verification using a RISC-like structure and efficiently handling sparse quantum gates. A dedicated compiler translates OpenQASM 2.0 into RISC-like instructions. The architecture is validated against the Qiskit state vector simulator, successfully emulating sixteen qubits on a Xilinx Kria KV260 SoM
Towards Quantum Circuit Emulation on Low-Tier FPGAs / Conti, Christian; Volpe, Deborah; Cirillo, Giovanni Amedeo; Graziano, Mariagrazia; Zamboni, Maurizio; Turvani, Giovanna. - 3:(2025), pp. 512-513. (Intervento presentato al convegno 2024 IEEE International Conference on Quantum Computing and Engineering (QCE) tenutosi a Montreal (Can) nel 15-20 September 2024) [10.1109/qce60285.2024.10381].
Towards Quantum Circuit Emulation on Low-Tier FPGAs
Conti, Christian;Volpe, Deborah;Cirillo, Giovanni Amedeo;Graziano, Mariagrazia;Zamboni, Maurizio;Turvani, Giovanna
2025
Abstract
Researchers and industries are increasingly drawn to quantum computing for its computational potential. However, validating new quantum algorithms is challenging due to current quantum device limitations. Software simulators are time and memory-intensive, making hardware emulators an attractive alternative. This article introduces a digital architecture, designed to emulate quantum computing on low-tier Field-Programmable Gate Arrays (FPGAs), supporting Clifford+T and rotational gate sets. It simplifies and accelerates quantum algorithm verification using a RISC-like structure and efficiently handling sparse quantum gates. A dedicated compiler translates OpenQASM 2.0 into RISC-like instructions. The architecture is validated against the Qiskit state vector simulator, successfully emulating sixteen qubits on a Xilinx Kria KV260 SoM
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https://hdl.handle.net/11583/2996530