Assessing and Advancing the Potential of Quantum Computing: A NASA Case   Study

Eleanor G. Rieffel; Ata Akbari Asanjan; M. Sohaib Alam; Namit Anand,; David E. Bernal Neira; Sophie Block; Lucas T. Brady; Steve Cotton; Zoe; Gonzalez Izquierdo; Shon Grabbe; Erik Gustafson; Stuart Hadfield; P. Aaron; Lott; Filip B. Maciejewski; Salvatore Mandr\`a; Jeffrey Marshall; Gianni; Mossi; Humberto Munoz Bauza; Jason Saied; Nishchay Suri; Davide Venturelli,; Zhihui Wang; Rupak Biswas

arXiv:2406.15601·quant-ph·June 25, 2024·Future Gener. Comput. Syst.

Assessing and Advancing the Potential of Quantum Computing: A NASA Case Study

Eleanor G. Rieffel, Ata Akbari Asanjan, M. Sohaib Alam, Namit Anand,, David E. Bernal Neira, Sophie Block, Lucas T. Brady, Steve Cotton, Zoe, Gonzalez Izquierdo, Shon Grabbe, Erik Gustafson, Stuart Hadfield, P. Aaron, Lott, Filip B. Maciejewski, Salvatore Mandr\`a

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TL;DR

This paper reviews NASA's efforts in evaluating and enhancing quantum computing, focusing on algorithm development, hardware benchmarking, error mitigation, and simulation techniques to advance practical applications.

Contribution

It introduces new methods for quantum hardware assessment, algorithm-hardware co-design, and physics-inspired classical algorithms for current quantum systems.

Findings

01

Quantum algorithms show promise for near-term applications.

02

Co-design of algorithms and hardware improves performance.

03

Advanced simulation techniques incorporate realistic error models.

Abstract

Quantum computing is one of the most enticing computational paradigms with the potential to revolutionize diverse areas of future-generation computational systems. While quantum computing hardware has advanced rapidly, from tiny laboratory experiments to quantum chips that can outperform even the largest supercomputers on specialized computational tasks, these noisy-intermediate scale quantum (NISQ) processors are still too small and non-robust to be directly useful for any real-world applications. In this paper, we describe NASA's work in assessing and advancing the potential of quantum computing. We discuss advances in algorithms, both near- and longer-term, and the results of our explorations on current hardware as well as with simulations, including illustrating the benefits of algorithm-hardware co-design in the NISQ era. This work also includes physics-inspired classical…

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