Quantum-Enhanced Simulation-Based Optimization
Julien Gacon, Christa Zoufal, et al.
QCE 2020
The Quantum Fisher Information matrix (QFIM) is a central metric in promising algorithms, such as Quantum Natural Gradient Descent and Variational Quantum Imaginary Time Evolution. Computing the full QFIM for a model with d parameters, however, is computationally expensive and generally requires O(d2) function evaluations. To remedy these increasing costs in high-dimensional parameter spaces, we propose using simultaneous perturbation stochastic approximation techniques to approximate the QFIM at a constant cost. We present the resulting algorithm and successfully apply it to prepare Hamiltonian ground states and train Variational Quantum Boltzmann Machines.
Julien Gacon, Christa Zoufal, et al.
QCE 2020
Julien Gacon, Christa Zoufal, et al.
QCE 2020
Jan Hermann, James Spencer, et al.
Nature Reviews Chemistry
Julien Gacon, Jannes Nys, et al.
PRResearch