Quantum Visualisation

Quantum computing offers significant speedup compared to classical computing, which has led to a growing interest among users in learning and applying quantum computing across various applications. However, quantum circuits, which are fundamental for implementing any quantum algorithms, can be challenging for users to understand due to their underlying logic, such as the temporal evolution of quantum states and the effect of quantum amplitudes on the probability of basic quantum states. To fill this research gap, we propose interactive visual analytics system to enhance the interpretability of quantum circuits by visualizing the evolution of quantum states. Specifically, we develop a suite of visualizations for quantum circuit analysis at both global and local levels.