Noise reduction using past causal cones in variational quantum algorithms

Abstract

We introduce an approach to improve the accuracy and reduce the sample complexity of near term quantum-classical algorithms. We construct a simpler initial parameterized quantum state, or ansatz, based on the past causal cone of each observable, generally yielding fewer qubits and gates. We implement this protocol on a trapped ion quantum computer and demonstrate improvement in accuracy and time-to-solution at an arbitrary point in the variational search space. We report a 27\% improvement in the accuracy of the calculation of the deuteron binding energy and 40\% improvement in the accuracy of the quantum approximate optimization of the MAXCUT problem applied to the dragon graph T3,2. When the time-to-solution is prioritized over accuracy, the former requires 71\% fewer measurements and the latter requires 78\% fewer measurements.