Gaussian Amplitude Amplification for Quantum Pathfinding
Daniel Koch
Abstract
We study an oracle operation, along with its circuit design, which combined with the Grover diffusion operator boosts the probability of finding the minimum or maximum solutions on a weighted directed graph. We focus on the geometry of sequentially connected bipartite graphs, which naturally gives rise to solution spaces describable by Gaussian distributions. We then demonstrate how an oracle that encodes these distributions can be used to solve for the optimal path via amplitude amplification. And finally, we explore the degree to which this algorithm is capable of solving cases that are generated using randomized weights, as well as a theoretical application for solving the Traveling Salesman problem.
Topics & Concepts
OracleGaussianBipartite graphTravelling salesman problemMathematicsComputer scienceFocus (optics)Path (computing)Operator (biology)AlgorithmGraphMathematical optimizationDiscrete mathematicsPhysicsRepressorChemistryBiochemistryTranscription factorGeneOpticsSoftware engineeringProgramming languageQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyDNA and Biological Computing