Title :
Maestro-VC: a paravirtualized execution environment for secure on-demand cluster computing
Author :
Kiyanclar, Nadir ; Koenig, Gregory A. ; Yurcik, William
Abstract :
Virtualization, a technology first developed for partitioning the resources of mainframe computers, has seen a resurgence in popularity in the realm of commodity workstation computers. This paper introduces Maestro-VC, a system which explores a novel use of VMs as the building blocks of entire virtual clusters (VCs). Virtualization of entire clusters is beneficial because existing parallel code can run without modification in the virtual environment. At the same time, inserting a layer of software between a virtual cluster and native hardware allows for security enforcement and flexible resource management in a manner transparent to running parallel code. In this paper we describe the design and implementation of Maestro-VC, and give the results of some preliminary performance experiments
Keywords :
mainframes; security of data; telecommunication security; virtual machines; workstation clusters; Maestro-VC; flexible resource management; mainframe computers; on-demand cluster computing security; parallel code; paravirtualized execution environment; security enforcement; virtual clusters; virtual environment; virtual machine; workstation computers; Application virtualization; Computer science; Costs; Grid computing; Hardware; Resource management; Resource virtualization; Security; Telecommunication traffic; Voice mail;
Conference_Titel :
Cluster Computing and the Grid, 2006. CCGRID 06. Sixth IEEE International Symposium on
Conference_Location :
Singapore
Print_ISBN :
0-7695-2585-7
DOI :
10.1109/CCGRID.2006.1630923
