Beyond the Buzz: Strategic Paths for Enabling Useful NISQ Applications

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Beyond the Buzz : Strategic Paths for Enabling Useful NISQ Applications

Hegde, Pratibha Raghupati (författare): KTH,Beräkningsvetenskap och beräkningsteknik (CST)

Kyriienko, Oleksandr (författare): Department of Physics and Astronomy, University of Exeter, Exeter, United Kingdom

Heimonen, Hermanni (författare): IQM Quantum Computers, Espoo, Finland

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Tolias, Panagiotis, 1984- (författare): KTH,Rymd- och plasmafysik

Netzer, Gilbert (författare): KTH,Parallelldatorcentrum, PDC

Barkoutsos, Panagiotis (författare): PASQAL SAS, Paris, France

Vinuesa, Ricardo (författare): KTH,Linné Flow Center, FLOW,SeRC - Swedish e-Science Research Centre,Strömningsmekanik och Teknisk Akustik

Peng, Ivy Bo (författare): KTH,Beräkningsvetenskap och beräkningsteknik (CST)

Markidis, Stefano (författare): KTH,Beräkningsvetenskap och beräkningsteknik (CST)

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Association for Computing Machinery (ACM), 2024
2024
Engelska.
Ingår i: Proceedings of the 21st ACM International Conference on Computing Frontiers, CF 2024. - : Association for Computing Machinery (ACM). ; , s. 310-313

Relaterad länk:: https://urn.kb.se/re...; visa fler...; https://doi.org/10.1...; visa färre...

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There is much debate on whether quantum computing on current NISQ devices, consisting of noisy hundred qubits and requiring a non-negligible usage of classical computing as part of the algorithms, has utility and will ever offer advantages for scientific and industrial applications with respect to traditional computing. In this position paper, we argue that while real-world NISQ quantum applications have yet to surpass their classical counterparts, strategic approaches can be used to facilitate advancements in both industrial and scientific applications. We have identified three key strategies to guide NISQ computing towards practical and useful implementations. Firstly, prioritizing the identification of a "killer app"is a key point. An application demonstrating the distinctive capabilities of NISQ devices can catalyze broader development. We suggest focusing on applications that are inherently quantum, e.g., pointing towards quantum chemistry and material science as promising domains. These fields hold the potential to exhibit benefits, setting benchmarks for other applications to follow. Secondly, integrating AI and deep-learning methods into NISQ computing is a promising approach. Examples such as quantum Physics-Informed Neural Networks and Differentiable Quantum Circuits (DQC) demonstrate the synergy between quantum computing and AI. Lastly, recognizing the interdisciplinary nature of NISQ computing, we advocate for a co-design approach. Achieving synergy between classical and quantum computing necessitates an effort in co-designing quantum applications, algorithms, and programming environments, and the integration of HPC with quantum hardware. The interoperability of these components is crucial for enabling the full potential of NISQ computing. In conclusion, through the usage of these three approaches, we argue that NISQ computing can surpass current limitations and evolve into a valuable tool for scientific and industrial applications. This requires an approach that integrates domain-specific killer apps, harnesses the power of quantum-enhanced AI, and embraces a collaborative co-design methodology.

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Beyond the Buzz : Strategic Paths for Enabling Useful NISQ Applications

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