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Presentation transcript:

Scheduled Accomplishments High Performance Networks Research Program Project Title: Optimizing Performance and Enhancing Functionality of Distributed Applications Using Logistical Networking PI: Micah Beck Institution: University of Tennessee Project Goals Support logistical networking Enable application groups to optimize & enhance Investigate scalability of storage networking Scheduled Accomplishments Server & library development Policy simulation & experiments Deployment across SciDAC community Advanced architectures Project Elements Software distribution Layered toolsets Simulation and measurement SciDAC Application partnerships Future Plans Logistical Computation Logistical Operating Environment Interoperability Standards

Support logistical networking: IBP, exNode Project Goals Support logistical networking: IBP, exNode Disseminate fundamental tools and techniques Enable applications to optimize & enhance Scheduling policy: robustness and performance Investigate scalability of storage networking Embedded and integrated implementations Cross-network peering, security & disintermediation

Software distribution Layered toolsets Project Elements Software distribution IBP depot (server), exNode aggregation library Layered toolsets Flexible policy, user-directed aggregation Simulation and measurement Policy validation, evaluation of large-scale viability Application partnerships Data intensive applications, scientific computing

Scheduled Accomplishments 6-12 Mos IBP applications demonstrated at SC’01 exNode support in NetSolve Reliability/performance coscheduling alpha Allocation policy simulation 12 Mos Initial generalized caching infrastructure Initial logistical overlay network on ESNet 12-18 Mos Wide-area logistical peering mechanisms and policies Resolution for highly volatile storage resources 18-36 Mos Experimental IBP architectures Large scale measurement and simulations

Logistical Computation Future Research Plans Logistical Computation A “Functional Unit” to complement IBP state mgt. Primitive, best effort, flexible aggregation Logistical Operating Environment Application communities sharing storage broadly Interoperability Standards Industry efforts, commercial issues