A privacy-protecting coupon system
Liqun Chen, Matthias Enzmann, et al.
FC 2005
The continued development of computational approaches to many-body ground-state problems in physics and chemistry calls for a consistent way to assess its overall progress. In this work, we introduce a metric of variational accuracy, the V-score, obtained from the variational energy and its variance. We provide an extensive curated dataset of variational calculations of many-body quantum systems, identifying cases where state-of-the-art numerical approaches show limited accuracy and future algorithms or computational platforms, such as quantum computing, could provide improved accuracy. The V-score can be used as a metric to assess the progress of quantum variational methods toward a quantum advantage for ground-state problems, especially in regimes where classical verifiability is impossible.
Liqun Chen, Matthias Enzmann, et al.
FC 2005
Rafae Bhatti, Elisa Bertino, et al.
Communications of the ACM
Maurice Hanan, Peter K. Wolff, et al.
DAC 1976
Hans Becker, Frank Schmidt, et al.
Photomask and Next-Generation Lithography Mask Technology 2004