Quantum Computing in Pharma: A Multilayer Embedding Approach for Near Future Applications

Autor: Izsak, Robert, Riplinger, Christoph, Blunt, Nick S., de Souza, Bernardo, Holzmann, Nicole, Crawford, Ophelia, Camps, Joan, Neese, Frank, Schopf, Patrick
Rok vydání: 2022
Předmět:
Druh dokumentu: Working Paper
DOI: 10.1002/jcc.26958
Popis: Quantum computers are special purpose machines that are expected to be particularly useful in simulating strongly correlated chemical systems. The quantum computer excels at treating a moderate number of orbitals within an active space in a fully quantum mechanical manner. We present a quantum phase estimation calculation on F$_2$ in a (2,2) active space on Rigetti's Aspen-11 QPU. While this is a promising start, it also underlines the need for carefully selecting the orbital spaces treated by the quantum computer. In this work, a scheme for selecting such an active space automatically is described and simulated results obtained using both the quantum phase estimation (QPE) and variational quantum eigensolver (VQE) algorithms are presented and combined with a subtractive method to enable accurate description of the environment. The active occupied space is selected from orbitals localized on the chemically relevant fragment of the molecule, while the corresponding virtual space is chosen based on the magnitude of interactions with the occupied space calculated from perturbation theory. This protocol is then applied to two chemical systems of pharmaceutical relevance: the enzyme [Fe] hydrogenase and the photosenzitizer temoporfin. While the sizes of the active spaces currently amenable to a quantum computational treatment are not enough to demonstrate quantum advantage, the procedure outlined here is applicable to any active space size, including those that are outside the reach of classical computation.
Comment: Submitted to Journal of Computational Chemistry
Databáze: arXiv