Energy is Conservable: Temporal Modeling for Resource Allocation in Swarm Devices
David Jun, Long Le, Douglas L. Jones

Citation
David Jun, Long Le, Douglas L. Jones. "Energy is Conservable: Temporal Modeling for Resource Allocation in Swarm Devices". Talk or presentation, 29, September, 2013; Presented at the First International Workshop on the Swarm at the Edge of the Cloud (SEC'13 @ ESWeek), Montreal.

Abstract
In battery-powered Swarm nodes, energy consumption is a critical resource that must be allocated wisely in order to maximize utility and functionality during the lifetime of the device. As energy consumption permeates every aspect of computing from device to application level, energy allocation is necessarily a cross-layer optimization problem. One way to address cross-layer resource allocation problems in the Swarm is by utilizing the two-level scheduling framework proposed by the Tessellation operating system (TOS). In TOS, each application is hosted in a cell, which is a partition of the total system resources. The allocation of resources to cells is done by the global resource allocation broker (RAB) to resolve resource conflicts between applications. Second-level application-specific task schedulers (ATS) distribute these allocated resources to specific tasks in order to meet desired performance criteria.

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Citation formats  
  • HTML 
    David Jun, Long Le, Douglas L. Jones. <a
href="http://www.terraswarm.org/pubs/122.html"><i>Energy
is Conservable: Temporal Modeling for Resource Allocation in
Swarm Devices</i></a>, Talk or presentation, 
29, September, 2013; Presented at the <a
href="http://www.terraswarm.org/conferences/13/swarm/index.htm"
>First International Workshop on the Swarm at the Edge of
the Cloud (SEC'13 @ ESWeek)</a>, Montreal.
  • Plain text 
    David Jun, Long Le, Douglas L. Jones. "Energy is
Conservable: Temporal Modeling for Resource Allocation in
Swarm Devices". Talk or presentation,  29, September,
2013; Presented at the <a
href="http://www.terraswarm.org/conferences/13/swarm/index.htm"
>First International Workshop on the Swarm at the Edge of
the Cloud (SEC'13 @ ESWeek)</a>, Montreal.
  • BibTeX 
    @presentation{JunLeJones13_EnergyIsConservableTemporalModelingForResourceAllocation,
    author = {David Jun and Long Le and Douglas L. Jones},
    title = {Energy is Conservable: Temporal Modeling for
              Resource Allocation in Swarm Devices},
    day = {29},
    month = {September},
    year = {2013},
    note = {Presented at the <a
              href="http://www.terraswarm.org/conferences/13/swarm/index.htm"
              >First International Workshop on the Swarm at the
              Edge of the Cloud (SEC'13 @ ESWeek)</a>, Montreal.},
    abstract = {In battery-powered Swarm nodes, energy consumption
              is a critical resource that must be allocated
              wisely in order to maximize utility and
              functionality during the lifetime of the device.
              As energy consumption permeates every aspect of
              computing from device to application level, energy
              allocation is necessarily a cross-layer
              optimization problem. One way to address
              cross-layer resource allocation problems in the
              Swarm is by utilizing the two-level scheduling
              framework proposed by the Tessellation operating
              system (TOS). In TOS, each application is hosted
              in a cell, which is a partition of the total
              system resources. The allocation of resources to
              cells is done by the global resource allocation
              broker (RAB) to resolve resource conflicts between
              applications. Second-level application-specific
              task schedulers (ATS) distribute these allocated
              resources to specific tasks in order to meet
              desired performance criteria. },
    URL = {http://terraswarm.org/pubs/122.html}
}

Posted by Christopher Brooks on 29 Sep 2013.

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