РАЗРАБОТКА МЕТОДА ОПТИМИЗАЦИИ И РАСПАРАЛЛЕЛИВАНИЯ ВЫЧИСЛИТЕЛЬНОГО ПРОЦЕССА В РАМКАХ КВАНТОВЫХ УСКОРИТЕЛЕЙ

Abstract

Recently, there has been a rapid increase in interest in quantum computers. Their work isbased on the use of quantum-mechanical phenomena such as superposition and entanglement forcomputing to transform input data into outputs that can actually provide effective performance3–4 orders of magnitude higher than any modern computing devices, which will allow solving theabove and others. tasks in real- and accelerated-time scale. This article is devoted to solving theproblem of research and development of methods for optimizing quantum computing within theframework of the application of quantum accelerators. A block diagram of a hardware acceleratoris proposed to increase the performance of simulated quantum computing. The development of thestructural diagram of the communication module of the hardware accelerator and the softwaremodel was carried out. The relevance of these studies lies in mathematical and software modelingand implementation of correction codes for correcting several types of quantum errors in the developmentand implementation of quantum algorithms for solving classes of problems of a classicalnature. The scientific novelty of this direction is expressed in the elimination of one of the disadvantagesof the quantum computational process. The scientific novelty of this area is primarilyexpressed in the constant updating and supplementation of the field of quantum research in anumber of areas, and the computer simulation of quantum physical phenomena and features ispoorly covered in the world.