In the upcoming frontier of quantum computing and telecommunications, especially 6G, which is an area under extensive research and development, quantum synchronisation plays a very immersive role. It presents us with unprecedented development in data privacy, network security, and latency. Employing quantum synchronisation, we synchronise three qubits by calculating their expectation values before and after the applications of the gates. Also, the time evolution of the expectation values of the spins σ_1,2,3 are also accomplished here. Before that, we briefly review the NTP and PTP protocols. Among the best results obtained in this study is the investigation of latency (in picosecond) between entangled qubits. Different suggestions are proposed here to improve this latency. We think that our outcomes present a forward step to understanding the significance of quantum synchronisation in classical network communications.