	US 12,271,782 B2
	Sense-plus-compute quantum-state carriers
Michael A. Perlin, Chicago, IL (US); Pranav Gokhale, Chicago, IL (US); Frederic T. Chong, Chicago, IL (US); Mark Saffman, Madison, WI (US); and Dana Zachary Anderson, Boulder, CO (US)
Assigned to ColdQuanta, Inc., Boulder, CO (US)
Filed by ColdQuanta, Inc., Boulder, CO (US)
Filed on Jun. 2, 2023, as Appl. No. 18/205,434.
Claims priority of provisional application 63/354,486, filed on Jun. 22, 2022.
Claims priority of provisional application 63/349,113, filed on Jun. 5, 2022.
Prior Publication US 2024/0370753 A1, Nov. 7, 2024
Int. Cl. G06N 10/20 (2022.01); G06N 10/70 (2022.01)

CPC G06N 10/20 (2022.01) [G06N 10/70 (2022.01)]

27 Claims

1. A process comprising:

repeatedly performing a sequence of actions to yield a set of classical domain measurements, the sequence of actions including:

entangling sense-plus-compute (S+C) quantum-state carriers (QSCs), wherein the entangling results in at least two groups of entangled QSCs and different groups of the QSCs that are not entangled with each other;

a capturing instance of capturing original sensor data using the at least two groups of entangled QSCs, wherein the original sensor data is represented by quantum states of the at least two groups of entangled S+C QSCs, the capturing instance using a set of at least three S+C QSCs;

an applying instance of applying quantum gate operations to the S+C QSCs, the applying instance implementing a quantum-domain transformation of the original sensor data to yield transformed sensor data;

measuring the transformed sensor data to yield one of the set of classical domain measurements; and

generating a model of the original sensor data based on the set of classical domain measurements.