Abstract
This study implements a grid-enabled software distributed shared memory (SDSM) system called Teamster-G on a wide area network (WAN). With the support of Teamster-G, users can develop applications on computational grids by means of shared variables. When they wish to execute their applications, Teamster-G provides a transparent resource allocation service for the execution of the programs. To minimize the turnaround time, Teamster-G employs a session-oriented protocol to reduce the cost of resource allocation, and a two-level consistency protocol to minimize the cost of maintaining data consistency over the WAN. This paper presents the framework of Teamster-G and discusses its performance.
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