Journal of Computer Based Parallel Programming

For deploying and execution of the scientific workflow computing clouds have become a major platform. Scientific workflow is a system which is designed specifically execute a series of computational scientific or other applications. It is used to discover workflows from the execution history to produce experimental results. Most existing process mining techniques focus on discovering only business processes. They cannot be applied in discovering data flow-oriented, unstructured scientific workflows in cloud .In our project to support both intra cloud and intercloud we have developed scientific workflow. Intercloud generally refers to a model for cloud computing services. Whereas intra cloud refers to two charged clouds who grow close to each other. In our project we have developed a way to take active screen shots in the system. We have also used the logs of employees to monitor their performance. Pro M plugin is used to display the performance of the employees.

J. Zhang, D. Kuc, and S. Lu, “Confucius: A tool supporting collaborative scientific workflow composition,” IEEE Trans. Services Computing, vol. 7, no. 1, pp. 2–17, 2017.

R. N. Calheiros and R. Buyya, “Meeting deadlines of scientific workflows in public clouds with tasks replication,” IEEE Trans. Parallel Distrib. Syst., vol. 25, no. 7, pp. 1787–1796, 2016.

R. Duan, R. Prodan, and X. Li, “Multi-objective game theoretic schedulingof bag-of-tasks workflows on hybrid clouds,” IEEE Trans. Cloud Computing”, vol. 2, no. 1, pp. 29–42, 2016.

Y. Zhao, Y. Li, I. Raicu, S. Lu, C. Lin, Y. Zhang, W. Tian, and R. Xue, “A service framework for scientific workflow management in the cloud,” IEEE Trans. Services Computing, vol. 8, no. 6, pp. 930–940, 2017.

G. Cordasco, R. D. Chiara, and A. L. Rosenberg, “An area-oriented heuristic for scheduling DAGs on volatile computing platforms,” IEEE Trans. Parallel Distrib.Syst., vol. 26, no. 8, pp. 2164–2177, 2017.

H. Wu, X. Hua, Z. Li, and S. Ren, “Resource and instance hour minimization for deadline constrained DAG applications using computer

clouds,” IEEE Trans. Parallel Distrib.Syst., vol. 27, no. 3, pp. 885–899, 2016.

S. B. Davidson and J. Freire, “Provenance and scientific workflows: Challenges and opportunities,” in Proceedings of the 2008 ACM SIGMOD International Conference on Management of Data, ser. SIGMOD ’08, 2017, pp. 1345–1350.

I. D. Santos, J. Dias, D. de Oliveira, E. S. Ogasawara, K. A. C. S. Ocana, and M. Mattoso, “Runtime dynamic structural changes of ˜ scientific workflows in clouds,” in IEEE/ACM 6th International Conference on Utility and Cloud Computing, UCC’13, Dresden, Germany, December 9-12, 2016, pp. 417–422.

A. C. Zhou and B.He, “Transformation-based monetary costoptimizations for workflows in the cloud,” IEEE Trans. Cloud Computing, vol. 2, no. 1, pp. 85–98, 2016.

M. A. Rodriguez and R. Buyya, “Deadline based resource provisioningand scheduling algorithm for scientific workflows on clouds,” IEEE Trans. Cloud Computing, vol. 2, no. 2, pp. 222–235, 2017