PVM: Parallel virtual machine: a users' guide and tutorial for networked parallel computing
PVM: Parallel virtual machine: a users' guide and tutorial for networked parallel computing
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Proceedings of the 2000 ACM/IEEE conference on Supercomputing
Toward a Common Component Architecture for High-Performance Scientific Computing
HPDC '99 Proceedings of the 8th IEEE International Symposium on High Performance Distributed Computing
PVM Emulation in the Harness Metacomputing Framework - Design and Performance Evaluation
CCGRID '02 Proceedings of the 2nd IEEE/ACM International Symposium on Cluster Computing and the Grid
A Formal Framework for Defining Grid Systems
CCGRID '02 Proceedings of the 2nd IEEE/ACM International Symposium on Cluster Computing and the Grid
Legion: The Next Logical Step Toward a Nationwide Virtual Computer
Legion: The Next Logical Step Toward a Nationwide Virtual Computer
Grid computing and web services: a natural partnership
EUROMICRO-PDP'02 Proceedings of the 10th Euromicro conference on Parallel, distributed and network-based processing
A Web Services Gateway for the H2O Lightweight Grid Computing Framework
ServiceWave '08 Proceedings of the 1st European Conference on Towards a Service-Based Internet
Experiences on parallel replicated discrete-event simulation on a GRID
GCC'05 Proceedings of the 4th international conference on Grid and Cooperative Computing
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Emerging trends in heterogeneous distributed metacomputing and in Web Services technologies exhibit several commonalities that each domain can exploit. In this paper, we present an architectural model and design issues in leveragingWeb Services to construct metacomputing frameworks. Our design is based on a combination of concepts currently embodied in the Harness system and those implemented by the Web Services Description Language and associated technologies. We begin by drawing parallels between component based metacomputing and the use of web services in the electronic commerce domain. We then suggest that the direct use of web service technologies is inappropriate and inefficient for high performance distributed computing, but that natural extensions are possible to enhance the suitability of these technologies. Based on our proposed extensions, specifically with regard to component deployment, localization, and encoding, we describe an operational model, architectural layering, and high-level design for the Harness II metacomputing framework.