Microprocessor Architecture Era for Development Cloud Computing of Ministry of Electricity and Energy of Egypt
DOI:
https://doi.org/10.24297/ijct.v13i12.5281Keywords:
ClComp, MEEE, AuthGs, Parallelization and Microprocessors.Abstract
A development and evaluation the Cloud Computing (ClComp) of Ministry of Electricity and Energy of Egypt (MEEE) is presented in this paper. In order to be able to judge whether the ClComp of MEEE is competence, there is a need to develop criteria which performance can judged. Competency based standards and the ability to perform the activities within an occupation to the standard expected in the organization structure are presented. The key objective of Cloud Computing is to integrate Authorized Groups (AuthGs) development with the needs of the organization structures of MEEE. The ClComp of MEEE was developed jointly between the telecommunication information technology and ClComp services. Evaluation enables participant to distinguish between AuthGs centered view and a customer centered view of cloud computing of MEEE is competence evaluation. Recognize the main types of evaluation, explain the purpose of evaluation compare the approaches to cloud computing evaluation and review the relationship between the process and policy of evaluation are investigated. Microprocessor architecture presented an optimistic view of multicore scalability to develop the ClComp. Moreover this paper investigates the theoretical analysis of multiprocessor developing and scalability. The analysis was based on the laws of Amdahl's, Gustafson's, Hill's and Marty for fixed-workload condition. Moreover, challenged the difficulties to develop better cloud computing is taken into account. Also, multicore analysis of ClComp scalability, performance and power under fixed-time and memory-bound conditions are studied. These results complement existing studies and demonstrate that ClComp architectures are capable of extensive scalability and developing.Downloads
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References
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[9] Anna Tzanakaki, MarkosAnastasopoulos, KonstantinosGeeorgakilas, GiadaLandi, Giacomo Bernini, Nicola Ciulli, JordiFerrerRiera, Eduard Escalona, Joan A. Garcia-Espin, Xavier Hesselbach, SergiFiguerola, ShupingPeng, Reza Nejabati, Simeoidou, Damian Parniewicz, Bartosz Belter and Juan Rodriguuez Martinez, " Planning of dynamic virtual optical cloud infrastructures: The GEYSERS approach", IEEE Communications Magazine, Vol. 52, No. 1, pp.(26-34), Januaary2014.
[10] Roberto Sabella, Francesco Testa, Paola Iolvanna and GiulioBottari, "Flexible Packet-Optical Integration in Cloud Age: Challenges and Opportunities for Network Delayering", IEEE Communications Magazine, Vol. 52, No. 1, pp.(35-43), Januaary 2014. [11] Chen Shan, Chang Heng and ZouXianjun, "Inter-Cloud Operation via NGSON", IEEE Communications Magazine, Vol. 50, No. 1, pp.(82-89), January 2012.
[12] Jens Zander and Petri Mahonen, " Riding the Data Tsunami in the Cloud: Myths and Challenges in Future Wireless Access", IEEE Communications Magazine, Vol. 51, No. 3, pp.(145-151), March 2013.
[13] SivadonChaisiri, Bu-Sung Lee and DusitNiyato, " Optimization of Resource Provisioning Cost in Cloud Computing", IEEE Transactions on Services Computing, Vol. 5, No. 2, pp.(164-177), April-June 2012.
[14] Gene M. Amdahl, "Validity of the single Processor Approach to Achieving Large Scale Computing Capabilities", AFIPS spring joint computer conference, pp.(1-4), 1967.
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[19] StijnEyermanand LievenEeckhout, " Modeling Critical Sections in Amdahl’s Law and its Implications for Multicore Design ", ISCA’10, Saint-Malo, France, pp.(1-8), June 19–23, 2010.
[20] Trevor Mudge University of Michigan "Power: A First-Class Architectural Design Constraint", IEEE Help Shape Future Technologies Computer Society, pp.(52-58), April 2001.
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Published
2014-10-05
How to Cite
El-Khobby, H. A., AbdElnaby, M. M., HASSANIN, A.-A. I. M., & Maziad, A. D. (2014). Microprocessor Architecture Era for Development Cloud Computing of Ministry of Electricity and Energy of Egypt. INTERNATIONAL JOURNAL OF COMPUTERS &Amp; TECHNOLOGY, 13(12), 5199–5209. https://doi.org/10.24297/ijct.v13i12.5281
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