|
[1] Arcangeli, A. "Evolution of Linux Towards Clustering," EFD R&D Clamart, 2003. [2] Axboe, J. "Deadline I/O Scheduler Tunables," SuSE, 2003. [3] Corbet, J. "A New Deadline I/O Scheduler," http://lwn.net/Articles/10874. [4] "Anticipatory I/O Scheduling," http://lwn.net/Articles/21274. [5] "The Continuing Development of I/O Scheduling," http://lwn.net/Articles/21274. [6] "Porting Drivers to the 2.5 Kernel," Linux Symposium, Ottawa, Canada, 2003. [7] Iyer, S. and P. Drushel. "Anticipatory SchedulingA Disk Scheduling Framework to Overcome Deceptive Idleness in Synchronous I/O," SOSP, 2001. [8] Irwin, W. Lee III, "A 2.5 Page Clustering Implementation," Linux Symposium, Ottawa, 2003. [9] "VM Tuning," IBM Technical Document, 2003. [10] McKenney, P. "Stochastic Fairness Queueing," INFOCOM, 1990. [11] Molnar, I. "Goals, Design and Implementation of the New Ultra-scalable O(1) Scheduler" (sched-design.txt), 2003. [12] Mosberger, D. and S. Eranian. IA-64 Linux Kernel, Design and Implementation, Prentice Hall, NJ, 2002. [13] Nagar, S., H. Franke, J. Choi, C. Seetharaman, S. Kaplan, N. Singhvi, V. Kashyap, and M. Kravetz. "Class-Based Prioritized Resource Control in Linux," 2003 Linux Symposium. [14] Shriver, E., A. Merchant, and J. Wilkes. "An Analytic Behavior Model with Readahead Caches and Request Reordering," Bell Labs, 1998. [15] Wienand, I. "An Analysis of Next Generation Threads on IA64," UNSW, HP, 2003. |
|