A NEW SOFTWARE DEVELOPMENT BASED ON OPENSTACK SYSTEM FOR MONITORING PURPOSES ON CLOUD COMPUTING Nurul Amira binti Johari #1, Mohamed Faidz Mohamed Said #2 # Universiti Teknologi MARA 70300 Seremban, Negeri Sembilan, MALAYSIA 1 nurulamiraa94@gmail.com 2 faidzms@ieee.org Abstract—OpenStack is a cloud operating system that controls large groups of computational, storage, and networking resources across a datacenter, and all aspects of this system are managed through a dashboard. Historically, Raskspace Hosting and NASA mutually launched this OpenStack, an initiative open-source cloud-software project around July 2010. This project aims to help organizations in offering cloud-computing services running on standard hardware. OpenStack allows users to use virtual machines which can handle different tasks to manage the environment. It is easier because of its horizontal scaling, which means that the tasks can easily serve users quickly by turning more instances. Keywords: openstack system, cloud computing, monitoring REFERENCES [1] G. Aceto, A. Botta, W. De Donato, and A. Pescapè, "Cloud monitoring: A survey," Computer Networks, vol. 57, pp. 2093-2115, 2013. [2] S. Bavane, A. Appandairaj, and G. Ilancheziapandian, "Monitoring Information and Control Flow on Paas for Cloud Computing Infrastructure and Services," International Journal of Engineering Sciences & Research Technology, vol. 1, pp. 114-119. [3] A. Calatrava, E. Romero, G. Moltó, M. Caballer, and J. M. Alonso, "Self-managed cost-efficient virtual elastic clusters on hybrid Cloud infrastructures," Future Generation Computer Systems, vol. 61, pp. 13-25, 2016. [4] J. M. A. Calero and J. G. Aguado, "Comparative analysis of architectures for monitoring cloud computing infrastructures," Future Generation Computer Systems, vol. 47, pp. 16-30, 2015. [5] I. O. C. COMPUTING, "E-Learning Development as Public Infrastructure Of Cloud Computing," Journal of Theoretical and Applied Information Technology, vol. 62, 2014. [6] A. Corradi, M. Fanelli, and L. Foschini, "VM consolidation: A real case based on OpenStack Cloud," Future Generation Computer Systems, vol. 32, pp. 118-127, 2014. [7] J. Dykstra and A. T. Sherman, "Design and implementation of FROST: Digital forensic tools for the OpenStack cloud computing platform," Digital Investigation, vol. 10, pp. S87-S95, 2013. [8] A. Kaceniauskas, R. Pacevic, V. Starikovicius, A. Maknickas, M. Staškuniene, and G. Davidavicius, "Development of cloud services for patient-specific simulations of blood flows through aortic valves," Advances in Engineering Software, vol. 103, pp. 57-64, 2017. [9] Z. Kozhirbayev and R. O. Sinnott, "A performance comparison of container-based technologies for the Cloud," Future Generation Computer Systems, vol. 68, pp. 175-182, 2017. [10] Z. Li, H. Li, X. Wang, and K. Li, "A generic cloud platform for engineering optimization based on OpenStack," Advances in engineering software, vol. 75, pp. 42-57, 2014. [11] J. Montes, A. Sánchez, B. Memishi, M. S. Pérez, and G. Antoniu, "GMonE: A complete approach to cloud monitoring," Future Generation Computer Systems, vol. 29, pp. 2026-2040, 2013. [12] R. Pacevic and A. Kaceniauskas, "The development of VisLT visualization service in Openstack cloud infrastructure," Advances in Engineering Software, vol. 103, pp. 46-56, 2017. [13] J. Povedano-Molina, J. M. Lopez-Vega, J. M. Lopez-Soler, A. Corradi, and L. Foschini, "DARGOS: A highly adaptable and scalable monitoring architecture for multi-tenant Clouds," Future Generation Computer Systems, vol. 29, pp. 2041-2056, 2013. [14] J. Yunxia, Z. Bowen, W. Shuqi, and S. Dongnan, "Research of Enterprise Private Cloud Computing Platform Based on OpenStack," International Journal of Grid Distribution Computing, vol. 7, pp. 171-180, 2014. [15] M. F. M. Said, S. Yahya, and M. N. Taib, "Analysis of Different Programming Primitives used in a Beowulf Cluster," International Journal of Computer and Information Technology (IJCIT), vol. 1, pp. 25-33, 2012. [16] M. F. M. Said, M. N. Taib, and S. Yahya, "Analysis of TCP/IP Overhead on Overlapping Message Transfer and Computation in a Distributed Memory System Architecture," International Journal of Advanced Research in Computer Science (IJARCS), vol. 3, pp. 22-36, 2012. [17] M. F. M. Said, S. Yahya, and M. N. Taib, "Analysis of Different Programming Primitives used in a Beowulf Cluster," International Journal of Computer and Information Technology (IJCIT), vol. 1, pp. 25-33, 2012.