Optimizing Quantum Circuit Design: A Comparative Study of Gate Efficiency and Error Reduction Techniques

Improving gate efficiency and reducing error rates in quantum circuit design is crucial for the fast development of quantum computing. examines the effects on quantum circuit performance of several approaches to improving gate efficiency and reducing errors. We study both established and new approaches to circuit design, including methods for error correction codes, algorithms for quantum gate creation, and strategies for circuit reconfiguration. Our research shows that while there are advantages to each method, the best outcomes for gate efficiency and error mitigation are achieved by combining several approaches. Our results show that improving the fidelity of quantum computations by optimizing circuit design can lead to more durable and scalable quantum systems, as confirmed by rigorous simulations and empirical assessments. Theoretically, this study adds to quantum circuit optimization, and practically, it helps programmers who want to use efficient quantum algorithms in the real world.