TY - JOUR
AU - Lesovik, G. B.
AB - Today's intermediate‐scale quantum computers, although imperfect, already perform computational tasks that are manifestly beyond the capabilities of modern classical supercomputers. However, so far, quantum‐enabled large‐scale solutions have been realized only for limited set of problems. Here a hybrid algorithm based on phase estimation and classical optimization of the circuit width and depth is employed for solving a specific class of large linear systems of equations ubiquitous to many areas of science and engineering. A classification of linear systems based on the entanglement properties of the associated phase‐estimation unitary operation is introduced, enabling a highly efficient search for solutions that is facilitated by a straightforward matrix‐to‐circuit map. A 217‐dimensional problem is implemented on several IBM quantum computer superconducting quantum processors, a record‐breaking result for a linear system solved by a quantum computer. Demonstrated realisation sets a clear benchmark in the quest for the future quantum speedup in the linear systems of equations solution.
TI - Solving Large‐Scale Linear Systems of Equations by a Quantum Hybrid Algorithm
JF - Annalen Der Physik
DO - 10.1002/andp.202200082
DA - 2022-07-01
UR - https://www.deepdyve.com/lp/wiley/solving-large-scale-linear-systems-of-equations-by-a-quantum-hybrid-yeo706GUwc
VL - 534
IS - 7
DP - DeepDyve
ER -