Optimizing Power Grid Resilience Through Quantum Computing

Abstract

The operation of volume computing is being carried out as part of this exploratory work with the thing of enhancing the rigidity of power grids. Because energy systems are getting less complex and more dynamic, this is done in order to give results to the problems that are being caused by these systems. Through bettered fault discovery, hastily response times to dislocations, and more effective grid exertion optimization, amount computing holds pledge for perfecting grid rigidity. This work aims to explore the implicit ways in which amount computing could achieve these improvement objects. The disquisition has made clear the implicit need to drop the impact of natural disasters, cyberattacks, and outfit failures on the power system's armature. This was achieved by taking advantage of volume algorithms and processing power. quantum computing yields new results for icing grid severity, responsibility, and stability. These findings are given in response to arising issues and troubles. These new results are the result of advancements made to real- time analytics and optimization ways.