Optimizing Quantum Circuit Simulations Through Parallel Computing
This project explores the parallelization of Pauli paths for quantum circuit simulations. By leveraging modern parallel computing architectures, we aim to significantly improve the performance and scalability of this simulation technique.
Pauli paths are a key element in quantum circuit simulations, as they help represent how quantum states evolve under quantum gates. By optimizing the calculation of these paths, we can reduce the computational cost of simulations on classical machines, enabling more scalable and accurate studies of larger quantum systems. Furthermore, these optimizations can inform the development of quantum algorithms and error correction techniques, ultimately bringing us closer to more practical and efficient quantum computing systems that can outperform classical counterparts.