M. Chen, E. Lee, G. Gibson, R. Katz, and D. Patterson. RAID: High-performance reliable secondary memory. Computing Surveys, 26(2):145--185, 1994.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....copies of tape resident data. For example, this strategy is suggested by Veritas [6] Mirroring tape resident data is expensive in terms of media consumed, robotic storage library slots used, and tape drive bandwidth required to write duplicate tapes. An alternative is to apply the RAID technology [1] developed for magnetic disk drives to tape storage. RAID technology (i.e. Redundant Arrays of Inexpensive Disks) works as follows. A collection of N 1 disk drives is aggregated and made to appear as a single disk drive. The user s data is written across N of the drives, and the additional drive ....

M. Chen, E. Lee, G. Gibson, R. Katz, and D. Patterson. RAID: High-performance reliable secondary memory. Computing Surveys, 26(2):145--185, 1994.

....the benefit of a cache. Models of disk arrays resemble the models presented in this paper in several aspects. Burkhard, Claffy, and Schwarz [3] present a simulation study of a disk array scheme. Lee and Katz [29] and Yang, Hu and Yang [42] present analytical models of disk arrays. Chen et al. [7] and Thomasian [37] present surveys of research in RAID modeling. Several authors have modeled a RSL. Butturini [4] presents the results of a simulation study of an optical disk jukebox system. Hevner [21] presents a model of an optical jukebox that is used for a database application. Howard [22] ....

M.P. Chen, E.K. Lee, G.A. Gibson, R.H. Katz, and D.A. Patterson. RAID: High-performance reliable secondary memory. Computing Surveys, 26(2):145--185, 1994.

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