Implementation of Socket Programming Simulation Using Quantum Communication Technologies
Citation
Ozceylan, E., Yaşar, C., & Assanova, B. (2022, October). Implementation of Socket Programming Simulation Using Quantum Communication Technologies. In 2022 International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT) (pp. 1007-1012). IEEE.Abstract
Using socket programming, which plays a major role in the communication between devices and people, data is transmitted instantly over predetermined ports. By the evolution of technology, the size of the data is increasing due to the increase in the quality of the data. As a result, there are losses and delays in data transfers. According to the research, it is assumed that applications and systems to be developed using quantum technologies will be useful in solving these problems. In this study, firstly information was given about the mechanism in classical socket programming and the problems encountered in this mechanism. Then, by giving information about quantum communication and the methods used in this communication, the quantum solutions to these problems were examined, the application was coded in the quantum programming language and the communication between two ports with quantum socket programming was simulated. The results obtained from this simulation was compared with the classically obtained results. Communication simulation between sockets was performed using teleportation and super-dense coding in quantum computers. © 2022 IEEE.