[1] J. Almeida, M. Dabu, A. Manikutty and P. Cao, "Providing Differentiated Quality-of-Service in Web Hosting Services," Proc. ACM SIGMETRICS Workshop on Internet Server Performance, Madison, Wisconsin, June 1998.

[2] V. A. Almeida and D. A. Menascé, "Approximate modeling of CPU preemptive resume priority scheduling using operational analysis," Proc. 10th European Computer Measurement Association (ECOMA) Conf. Computer Measurement, Munich, Germany, October 12-15, 1982.

[3] S. Agrawal, Metamodeling: A Study of Approximations in Queuing Models, MIT Press, Cambridge, Massachusetts, 1985.

[4] S. Agrawal and J. P. Buzen, "The Aggregate Server Method for Analyzing Serialization Delays in Computer Systems," ACM Tr. Comp. Sys., vol. 1, no. 2, May 1983, pp. 116 143.

[5] B. Krishnamurthy and J. Rexford, Web protocols and practice: HTTP/1.1, networking protocols, caching and traffic measurement, Addison Wesley, Boston, Massachusetts, 2001.

[6] G. Banga and P. Druschel, "Measuring the capacity of a web server," Usenix Symp. Internet Technol. Syst., Monterey, California, December 1997, pp. 61 71.

[7] P. Barford and M. Crovella, "Generating representative Web workloads for network and server performance evaluation," Proc. ACM SIGMETRICS Conf., Madison, Wisconsin, November 1998, pp. 151 160.

[8] F. Baskett, K. Chandy, R. Muntz, and F. Palacios, "Open, closed, and mixed networks of queues with different classes of customers," J. ACM, vol. 22, no. 2, April 1975, pp. 248 260.

[9] L. Bertolotti and M. Calzarossa, "Models of mail server workloads," Performance Evaluation, no. 46, vol. 2, 2001, pp. 65 76.

[10] A. Brandwajn, "Fast approximate solution of multiprogrammed models," Proc. 1982 SIGMETRICS Conf. Measurement and Modeling of Computer Systems, Seattle, Washington, 1982, pp. 141-149.

[11] G. Bolch, S. Greiner, H. de Meer, and K. Trivedi, Queueing Networks and Markov Chains, John Wiley & Sons, Inc., 1998.

[12] M. Carey, R. Jauhari, M. Livny, "Priority in DBMS resource scheduling," Proc. VLDB Conf., 1989, pp. 397 410.

[13] K. Chandy and E. Sauer, "Approximate methods for analyzing queuing network models of computing systems," ACM Computing Surveys, vol. 10, no. 3, September 1978, pp. 281 317.

[14] P. Courtois, "Decomposability, instabilities, and saturation in multiprogramming systems," Comm. ACM, vol. 18, no. 7, 1975, pp. 371-377.

[15] M. Crovella and A. Bestravos, "Self-similarity in World Wide Web traffic: evidence and possible causes," in IEEE/ACM Transactions on Networking, vol. 5, no. 6, December 1997, pp. 835 846.

[16] L. W. Dowdy, D. Eager, K. Gordon, and L. Saxton, "Throughput concavity and response time convexity," Information Processing Letters, no. 19, 1984.

[17] A. Downey, "The structural cause of file size distributions," Proc. IEEE MASCOTS 2001, Cincinnati, Ohio, August 2001.

[18] D. Eager, D. Sorin, and M. Vernon, "AMVA techniques for high service time variability," Proc. 2000 ACM SIGMETRICS Int'l. Conf. on Measurement and Modeling of Computer Systems, Santa Clara, California, June 2000, pp. 217 228.

[19] A. Feldmann, A. Gilbert, P. Huang, and W. Willinger, "Dynamics of IP traffic: a study of the role of variability and the impact of control," Proc. ACM SIGCOMM Conf., Boston, Massachusetts, September 1999, pp. 301 313.

[20] P. A. Jacobson and E. D. Lazowska, "A reduction technique for evaluating queuing networks with serialization delays," Performance'83, eds. A. K. Agrawal and S. K. Tripathi, North-Holland Publishing Co., Amsterdam, 1983, pp. 45 59.

[21] P. A. Jacobson and E. D. Lazowska, "Analyzing queuing networks with simultaneous resource possession," Comm. ACM, 25, 2, February 1982, pp. 142 151.

[22] P. Kahkipuro, "Performance modeling framework for CORBA-based distributed systems," Ph.D. Dissertation, Technical Report A-2000-3, Department of Computer Science, University of Helsinki, Finland, 2000.

[23] E. Lazowska, J. Zahorjan, S. Graham, and K. C. Sevcik, Quantitative System Performance: Computer System Analysis Using Queuing Network Models, Prentice Hall, Upper Saddle River, New Jersey, 1984.

[24] D. A. Menascé and V. A.F. Almeida, "Operational analysis of multiclass systems with variable multiprogramming level and memory queuing," Computer Performance, vol. 3, no. 3, September 1982.

[25] D. A. Menascé, "Two-level iterative queuing modeling of software contention," Proc. Tenth IEEE/ACM International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunication Systems (MASCOTS 2002), Fort Worth, Texas, October 12-16, 2002.

[26] D. A. Menascé, O. Pentakalos, and Y. Yesha, "An analytic model of hierarchical mass storage systems with network-attached storage devices," Proc. 1996 ACM Sigmetrics Conf., Philadelphia, Pennsylvania, May 1996.

[27] D. Menascé, V. A. F. Almeida, R. Riedi, F. Ribeiro, R. Fonseca, and W. Meira Jr., "A hierarchical and multiscale approach to analyze E-business workloads," Performance Evaluation, vol. 54, no. 1, September 2003, pp. 33 57.

[28] V. Paxson and S. Floyd, "Wide area traffic: the failure of Poisson modeling," IEEE/ACM Tr. Networking, vol. 3, no. 3, June 1995, pp. 226 244.

[29] S. Ramesh and H. G. Perros, "A multilayer client-server queuing network model with synchronous and asynchronous messages," IEEE Tr. Software Eng., vol. 26, no. 11, November 2000, pp. 1186 1100.

[30] M. Reiser and S. Lavenberg, "Mean-value analysis of closed multi-chain queuing networks," J. ACM, vol. 27, no. 2, 1980, pp. 643 673.

[31] M. Reiser, "A queueing network analysis of computer communication networks with window flow control," IEEE Trans. on Commun., vol. 27, no. 8, August 1979.

[32] J. Rolia K. C. Sevcik, "The Method of Layers," IEEE Tr. Software Eng., vol. 21, no. 8, 1995, pp. 689 700.

[33] K. C. Sevcik, "Priority Scheduling Disciplines in Queuing Network Models of Computer Systems," Proc. IFIP Congress 77, North-Holland Publishing Co., Amsterdam, 1977, pp. 565 570.

[34] A. Seidmann, P. Schweitzer, and S. Shalev-Oren, "Computerized closed queueing network models of flexible manufacturing systems," Large Scale Syst. J., North-Holland, vol. 12, pp. 91 107, 1987.

[35] P. Schweitzer, "Approximate analysis of multiclass closed network of queues," in International Conf. Stochastic Control and Optimization, Amsterdam, 1979.

[36] A. Thomasian, "Queuing network models to estimate serialization delays in computer systems," in Performance'83, A. K. Agrawal and S. K. Tripathi (eds.), North-Holland Publishing Co., Amsterdam, 1983, pp. 61 81.

[37] A. Thomasian and P. Bay, "Analysis of queuing network models with population size constraints and delayed blocked customers," Proc. 1984 ACM SIGMETRICS Conf. Measurement and Modeling of Computer Systems, Boston, Massachusetts, 1984.

[38] E. Varki, A. Merchant, J. Xu, and X. Qiu, "An integrated performance model of disk arrays," Proc. IEEE MASCOTS Conf., Orlando, Florida, 2003.

[39] E. Varki, "Mean value technique for closed fork-join networks," Proc. ACM SIGMETRICS Conf. Measurement and Modeling of Computer Systems, Atlanta, Georgia, May 1999, pp. 103 112.

[40] E. Varki and L. W. Dowdy, "Analysis of balanced fork-join systems," Proc. ACM SIGMETRICS Conf. Measurement and Modeling of Computer Systems, Philadelphia, Pennsylvania, May 1996.

[41] J. Zahorjan, E. Lazowska, and R. Garner, "A decomposition approach to modelling high service time variability," Performance Evaluation, vol. 3, no. 1, pp. 35 53.

[42] C. M. Woodside, "An active-server model for the performance of parallel programs written using rendezvous," J. Systems and Software, 1986, pp. 125 131.


Performance by Design. Computer Capacity Planning by Example
Performance by Design: Computer Capacity Planning By Example
ISBN: 0130906735
EAN: 2147483647
Year: 2003
Pages: 166

Similar book on Amazon © 2008-2017.
If you may any questions please contact us: