5 Conclusão e Trabalhos Futuros
5.2 Restrições e Trabalho Futuros
Devido à amplitude do tema na área pesquisada, este trabalho limitou-se a analisar variantes de temperatura em um CDC e suas consequências se compartilhado com outros CDCs que não apresente variações. Esta pesquisa necessita de uma abrangência maior, analisando variações e suas consequências em vários CDCs, buscando uma análise em um contexto mais prático.
5.1 CONTRIBUIÇÕES
98 Devido à impossibilidade de vivenciar a pesquisa na pratica, limitando-se aos simuladores, esta pesquisa não obteve referencial prático para comprovar de fato as analise simuladas.
99
Referências
[1] ALGER, DOUGLAS. 2005. Build the Bert Data Center Facility for Your Business. S.l: Cisco Press. 2005.ISBN: 1-58705-182-6.
[2] ANDERSON, J. D. (1995). Computational Fluid Dynamics: The Basics WithApplications. McGraw-Hill Science/Engineering/Math; 1 edition.
[3] ARREGOCES, M. AND PORTOLANI, M. (2003). Data center fundamentals. Cisco Press.
[4] ARRHENIUS, S. (1884). Recherches sur la conductibilité galvanique dês électrolytes. P.A. Norstedt & Söner.
[5] AUGARTEN, S. (1984). Bit by Bit: An Illustrated History of Computers. Houghton Mifflin Co. Boston, MA, USA.
[6] AVIZIENIS, A., LAPRIE, J.-C., RANDELL, B., AND LANDWEHR, C. (2004). Basic concepts and taxonomy of dependable and secure computing. Dependable and Secure Computing, IEEE Transactions on, 1(1), 11 – 33. [7] BALBO, G. (2001). Introduction to stochastic petri nets.
[8] BARROSO, LUIZ ANDRÉ. (2014). Available via the: http://www.barroso.org/ [9] BASH, C., PATEL, C., SHAH, A., AND SHARMA, R. (2008). The sustainable
information technology ecosystem. In Thermal and Thermomechanical Phenomena in Electronic Systems, 2008. ITHERM 2008. 11th Intersociety Conference on, pages 1126–1131. IEEE.
[10] BRAD STEWART Software Reliability Engineering - Developer Geeks. Agosto (2012) . Recuperado janeiro 17, 2014, de http://developergeeks.com/article/ 60/software-reliability-engineering.
[11] CALLOU, G., MACIEL, P., TUTSCH, D., AND ARAUJO, J. (2012). Models for dependability and sustainability analysis of data center cooling architectures. DSDV 2012 .
[12] CALLOU, G., MACIEL, P., TUTSCH, D., AND ARAUJO, J. (2012). Models for dependability and sustainability analysis of data center cooling architectures. DSDV 2012 . Callou, G., Maciel, P., Tutsch, D., Ferreira, J., Araújo, J., and Souza, R. (2013). Estimating sustainability impact of high dependable data
100 centers: a comparative study between brazilian and us energy mixes. Computing, pages 1–34.
[13] CALLOU, G., MACIEL, P., TUTSCH, D., FERREIRA, J., ARAÚJO, J., AND SOUZA, R. (2013). Estimating sustainability impact of high dependable data centers: a comparative study between brazilian and us energy mixes. Computing, pages 1–34.
[14] CALLOU, G., SOUSA, E., MACIEL, P., TAVARES, E., ARAUJO, C., SILVA, B., ROSA, N., MARWAH, M., SHARMA, R., SHAH, A., ET AL. (2010). Impact analysis of maintenance policies on data center power infrastructure. In Systems Man and Cybernetics (SMC), 2010 IEEE International Conference on, pages 526–533. IEEE.
[15] Callou, G., Sousa, E., Maciel, P., Tavares, E., Silva, B., Figueirêdo, J., Araujo, C., Magnani, F., and Neves, F. (2011). A formal approach to the quantification of sustainability and dependability metrics on data center infrastructures. In Proceedings of the 2011 Symposium on Theory of Modeling & Simulation: DEVS Integrative M&S Symposium, TMS-DEVS ’11, pages 274–281, San Diego, CA, USA. Society for Computer Simulation International.
[16] CISCO (2014). Cisco 7000 serie router. Available via the: http://www.cisco.com/c/en/us/products/collateral/routers/7606-router/product _data_sheet0900aecd8057f3c8.html
[17] CISCO (2014). Cisco catalyst 3750 series switches. Available via the: http://www.cisco.com/c/en/us/products/collateral/switches/catalyst-3750-x- series-switches/data_sheet_c78-584733.html
[18] EBELING, C. (1997). An Introduction to Reliability and Maintainability
Engineering.Waveland Press. IEEE 90 – Institute of Electrical and Electronics
Engineers, IEEE Standard Computer
[19] EBELING, C. (2004). An introduction to reliability and maintainability engineering. Electrical engineering series. McGraw-Hill.
[20] EMSD (2005). Code of practice for energy efficiency of air-conditioning installations. Technical report, Hong Kong: Electrical and Mechanical Services Department (EMSD), the Government of the Hong Kong Special Administrative Region.
101 [21] FIGUEIRÊDO, José Jair Cavalcante de Análise de dependabilidade de sistemas data Center baseada em índices de importância / José Jair Cavalcante de Figueirêdo - Recife: O Autor, 2011. xiii, 88 folhas : il., fig., tab. [22] GERARD. FLORIN, C´ELINE. FRAIZE, AND NATKIN. ST´EPHANE.
Stochastic Petri nets: properties, applications and tools. Number 31(4):669- 697. Microelectonics Reliability, 1991.
[23] Google Data Centers (2014). Available via the: http://www.google.com/about/datacenters/.
[24] HEWLETT-PACKARD COMPANY. Maximizing Your Infrastructure through Virtualization Featuring, Virtualization Best Practices for Reducing Costs, pp. 1, 2011
[25] Inc, T. (2010). Thermophysical conversion tool. thermophysical measurements and instrumentation. [Online] TermTest Inc. http://www.thermtest.com.
[26] Software Reliability.(1999), 18-849b Dependable Embedded Systems 2014, Available via the:www.ece.cmu.edu/~koopman/des_s99/sw_reliability/.
[27] KENNETH G. BRILL, “Data Center Energy Efficiency and Productivity,” The Uptime Institute. 2007.
[28] KUO, W. AND ZUO, M. (2003). Optimal reliability modeling: principles and applications. Wiley.
[29] LÓPEZ, V. AND HAMANN, H. F. (2010). Measurement-based modeling for data centers. In Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), 2010 12th IEEE Intersociety Conference, pages 1 –8. [30] LYONS, R.E.; VANDERKULK, W. The use of triple-modular redundancy to
improve computer reliability. IBM Journal of Research and Development. New York, 6(3): 200-209, abr. 1962. [Mul93] MULLENDE, S. Distributed systems. Addison
[31] MACIEL, P. R. M., TRIVEDI, K., MATHIAS JR, R. & KIM, D. (2010), Dependability Modeling In: Performance and Dependability in Service Computing: Concepts, Techniques and Research Directions., Ed. Hershey: IGI Global, Pennsylvania,USA.
[32] MACIEL, P., TRIVEDI, K., MATIAS, R., AND KIM, D. (2011). Performance and Dependability in Service Computing: Concepts, Techniques and Research
102 Directions, chapter 3 - Dependability Modeling, pages 53–97. Information Science Reference.
[33] MARIN, PAULO S. Data Centers: desvendando cada passo: conceitos, projetos, infraestrutura física e eficiência energética / Paulo S.Marin. – 1. Ed. – São Paulo : Érica, 2011.
[34] MARWAH, M., MACIEL, P., SHAH, A., SHARMA, R., CHRISTIAN, T., ALMEIDA, V., ARÁUJO, C., SOUZA, E., CALLOU, G., SILVA, B., ET AL. (2010). Quantifying the sustainability impact of data center availability. ACM SIGMETRICS Performance Evaluation Review, 37(4):64–68.
[35] MCKINLEY, P. K., SAMIMI, F. A., SHAPIRO, J. K., AND TANG, C. (2006). Service clouds: A distributed infrastructure for composing autonomic communication services. In Proc. of the 2nd IEEE International Symposium on Dependable, Autonomic and Secure Computing (DASC'06), pages 341–348, Indianapolis, IN, USA.
[36] MICHAEL R. LYU. Software Fault Tolerance. Available via the:www.cuhk.edu.hk/. China. John Wiley & Sons Ltd, 2012.
[37] MISHRA, M., DAS, A., KULKARNI, P., et al. “Dynamic resource management using virtual machine migrations”, Communications Magazine, IEEE, v. 50, n. 9, pp. 34 –40, set. 2012.
[38] MOLLOY, M.K.. Performance analysis using stochastic petri nets. Computers, IEEE Transactions on, C-31(9):913 –917, sept. 1982.
[39] Morais, Dayler Losi. Analise de ampliação de infraestrutura de um centro de dados, Sistema tradicional versus híbrido, Distrito Federal, 2010.
[40] PACKARD, H. (2013). Hp power advisor. Technical report.
[41] PACKARD, H. (2014). Hp proliant dl580 g5. Available via the: http://h20566.www2.hp.com/portal/site/hpsc/template.PAGE/public/kb/docDisp lay/?spf_p.tpst=kbDocDisplay&spf_p.prp_kbDocDisplay=wsrp-navigational State%3DdocId%253Demr_na-c01154573-29%257CdocLocale%253D%257 CcalledBy%253D&javax.portlet.begCacheTok=com.vignette.cachetoken&java x.portlet.endCacheTok=com.vignette.cachetoken
[42] PAKBAZNIA, E., GHASEMAZAR, M., AND PEDRAM, M. (2010). Temperature aware dynamic resource provisioning in a power optimized data center. In Proceedings of the Conference on Design, Automation and Test in Europe,
103 pages 124–129, 3001 Leuven, Belgium, Belgium. European Design and Automation Association.
[43] PAQUETTE, L. (2004). The Sourcing Solution. American Management Association, New York, NY.
[44] PATEL, CAHNDRAKANT D. E AMIP, SHAH J. 2005. Cost Model for Planning, Development and Operation of Data Center. Palo Alto: HP Laboratories Palo Alto, 2005.
[45] PATTERSON, D. (2002). A simple way to estimate the cost of downtime. In Proc. 16th Systems Administration Conf.| LISA, pages 185–8. [12][Patterson 2002]
[46] PAULO, M., KISHOR, S. T., MATIAS, R., AND KIM, D. (2011). Dependability Modeling, volume 1. IGI Global, Pennsylvania.
[47] PETERSON. J. L. Petri nets. ACM Computing Surveys, 9(3):223–252, 1977. [48] PRADHAN, D. K., Fault-Tolerant System Design. Prentice Hall, New Jersey,
1996.
[49] Data Centre Container (2014). Available via the : http://www.rittaldatacentre.com.au
[50] SAHNER, R. A., TRIVEDI, K. S., AND PULIAFITO, A. (1996). Performance and reliability analysis of computer systems: an example-based approach using the SHARPE software package. Kluwer Academic Publishers, Norwell, MA, USA.
[51] SAHNER, R., TRIVEDI, K., AND PULIAFITO, A. (1997). Performance and reliability Semiconductor, O. (2012). Quality & reliability handbook, av. Available via the: www.onsemi.com/publink/Collateral/HBD851-D.
[52] Sahner, R., Trivedi, K., and Puliafito, A. (1997). Performance and reliability analysis of computer systems (an example-based approach using the sharpe software. Reliability, IEEE Transactions on, 46(3), 441–441.
[53] SANKAR, S., SHAW, M., AND VAID, K. (2011). Impact of temperature on hard disk drive reliability in large datacenters. In Dependable Systems Networks (DSN), 2011 IEEE/IFIP 41st International Conference on, pages 530 –537. [54] SHINDE, S. L. AND JITENDRA, G. (1996). High thermal conductivity
104 [55] SILVA, B.; MACIEL, P.; TAVARES, E.; ZIMMERMANN, A. Dependability models for designing disaster tolerant cloud computing systems. 2013 43rd Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN). Anais... p.1–6. doi: 10.1109/DSN.2013.6575323, 2013. [56] software. Reliability, IEEE Transactions on, 46(3), 441–441.
[57] SOUZA, Rafael Roque de Avaliação de dependabilidade de infraestruturas de data centers considerando os efeitos da variação de temperatura / Rafael Roque de Souza. - Recife: O Autor, 2013. 91 f.: il., fig., tab.
[58] TRIVEDI, K. and et al (1994). Reliability analysis techniques explored through
a communication network example. In International Workshop on Computer- Aided Design, Test, and Evaluation for Dependability.
[59] TRIVEDI, K. S. (1982). Probability and statistics with reliability, queuing, andcomputer science applications. Prentice Hall.
[60] VERAS, M. (2011). Virtualização: Componente Central do Datacenter. Brasport.
[61] VISHAY (2006). Vishay semiconductor. Available via the: www.vishay.com/docs/80116.pdf.
[62] VON NEWMANN, J. Probabilistic logics and the synthesis of reliable organisms from unreliable components. In: Automata Studies, Shannon & McCarthy eds. Princeton Univ. Press, 1956. p. 43-98.
[63] WAY, K. and Ming, J. Z. (2003). Optimal Reliability Modeling - Principles and Applications, volume 1. Wiley. Wei, B., Lin, C., and Kong, X. (2011). Dependability modeling and analysis for the virtual data center of cloud computing. In High Performance Computing and Communications (HPCC), 2011 IEEE 13th International Conference on, pages 784 –789.
[64] WEBER, T. S. 1990. Dictionary: A Compilation of IEEE Standard Computer Glossaries. New York, NY: Um roteiro para exploração dos conceitos básicos de tolerância a falhas. 2002.
[65] WENDY, Torrell. Mean Time Between Failure: Explanation and Standards. Available via the: www.apc.com/prod_docs/ (2014)
[66] ZIMMERMANN, A. (2012). Modeling and evaluation of stochastic petri nets with timenet 4.1. In Performance Evaluation Methodologies and Tools (VALUETOOLS), 2012 6th International Conference on, pages 54–63.