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ICDCS
2006
IEEE
2006
IEEE
On Scheduling Expansive and Reductive Dags for Internet-Based Computing
Earlier work has developed the underpinnings of a theory of scheduling computations having intertask dependencies—modeled via dags—for Internet-based computing. The goal of the schedules produced is to render tasks eligible for execution at the maximum possible rate. This goal aims: (a) to utilize remote clients’ computational resources well, by always having work to allocate to an available client; (b) to lessen the likelihood of the “gridlock” that ensues when a computation stalls for lack of eligible tasks. The dags handled by the theory thus far are those that can be constructed from a given collection of bipartite building-block dags via the operation of dagcomposition. The current paper extends the range of applicability of the theory by significantly expanding the repertoire of building-block dags that the scheduling algorithms can handle. Thereby, the theory can now schedule large classes of “expansive” and “reductive” dags optimally.
Real-time TrafficBuilding-block Dags | Computations Having Intertask | Distributed And Parallel Computing | ICDCS 2006 | Maximum Possible Rate |
| Added | 11 Jun 2010 |
| Updated | 11 Jun 2010 |
| Type | Conference |
| Year | 2006 |
| Where | ICDCS |
| Authors | Gennaro Cordasco, Grzegorz Malewicz, Arnold L. Rosenberg |
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