Title :
Design and implementation of a network-wide concurrent file system in a workstation cluster
Author :
Si-Woong, Jang ; Ki-Dong, Chung ; Coleman, Sam
Author_Institution :
Dept. of Comput. Sci., Pusan Nat. Univ., South Korea
Abstract :
We estimate the performance of a network-wide concurrent file system implemented using conventional disks as disk arrays. Tests were carried out on both single system and network-wide environments. On single systems, a file was split across several disks to test the performance of file I/O operations. We concluded that performance was proportional to the number of disks, up to four, on a system with high computing power. Performance of a system with low computing power, however, did not increase, even with more than two disks. When we split a file across disks in a network-wide system called the Network-wide Concurrent File System (N-CFS), we found performance similar to or slightly higher than that of disk arrays on single systems. Since file access through N-CFS is transparent, this system enables traditional disks on single and networked systems to be used as disk arrays for I/O intensive jobs
Keywords :
arrays; input-output programs; local area networks; network operating systems; performance evaluation; software performance evaluation; workstations; I/O intensive jobs; Network-wide Concurrent File System; computing power; disk arrays; file I/O operations; file access; file splitting; performance; single system environment; workstation cluster; Central Processing Unit; Computer science; Concurrent computing; Disk drives; File systems; High performance computing; Intelligent networks; Parallel processing; System testing; Workstations;
Conference_Titel :
Mass Storage Systems, 1995. 'Storage - At the Forefront of Information Infrastructures', Proceedings of the Fourteenth IEEE Symposium on
Conference_Location :
Monterey, CA
Print_ISBN :
0-8186-7064-9
DOI :
10.1109/MASS.1995.528233
