The Experts below are selected from a list of 186 Experts worldwide ranked by ideXlab platform
Gudula Runger - One of the best experts on this subject based on the ideXlab platform.
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CLUSTER - TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced.
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TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced
Sascha Hunold - One of the best experts on this subject based on the ideXlab platform.
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CLUSTER - TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced.
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TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced
Vanessa Evers - One of the best experts on this subject based on the ideXlab platform.
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Useful and Motivating Robots — The Influence of Task Structure on Human-Robot Teamwork
2014 9th ACM IEEE International Conference on Human-Robot Interaction (HRI), 2014Co-Authors: Manja Lohse, Vanessa EversAbstract:Robots have recently started to leave their safety cages to be used in close vicinity to humans. This also causes changes in the nature of the Tasks that robots and humans solve together, i.e., in the degree of structure of the Tasks. While traditional, industrial Tasks were highly Structured, the new Tasks often have a low level of structure. We present a user study that compares a highly and a little Structured Task in a text-based computer game played by human-robot teams. The results suggest that users do not only find robots useful and motivating in highly Structured Tasks where they depend on their help, but also in little Structured Tasks that they could solve on their own.
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HRI - Useful and motivating robots: the influence of Task structure on human-robot teamwork
Proceedings of the 2014 ACM IEEE international conference on Human-robot interaction - HRI '14, 2014Co-Authors: Manja Lohse, Vanessa EversAbstract:Robots have recently started to leave their safety cages to be used in close vicinity to humans. This also causes changes in the nature of the Tasks that robots and humans solve together, i.e., in the degree of structure of the Tasks. While traditional, industrial Tasks were highly Structured, the new Tasks often have a low level of structure. We present a user study that compares a highly and a little Structured Task in a text-based computer game played by human-robot teams. The results suggest that users do not only find robots useful and motivating in highly Structured Tasks where they depend on their help, but also in little Structured Tasks that they could solve on their own.Categories and Subject DescriptorsH.m [Information Systems]: MiscellaneousGeneral TermsExperimentation
Thomas Rauber - One of the best experts on this subject based on the ideXlab platform.
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CLUSTER - TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced.
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TGrid - Grid runtime support for hierarchically Structured Task-parallel programs
2006 IEEE International Conference on Cluster Computing, 2006Co-Authors: Sascha Hunold, Thomas Rauber, Gudula RungerAbstract:In this article we introduce a grid runtime system called TGrid which is designed to run hierarchically Structured Task-parallel programs on heterogenous environments and can also be used for common component-based grid programming. TGrid is built on top of a location-aware communication layer which enables the runtime system to cluster grid nodes. As a result, the component scheduler assigns a multi-processor Task to a set of processors taking into account the spatial locality within the available processors. The multi-processor Task directly benefits from having less network overhead and thus, the overall runtime of a grid-enabled multi-processor program is reduced
Manja Lohse - One of the best experts on this subject based on the ideXlab platform.
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Useful and Motivating Robots — The Influence of Task Structure on Human-Robot Teamwork
2014 9th ACM IEEE International Conference on Human-Robot Interaction (HRI), 2014Co-Authors: Manja Lohse, Vanessa EversAbstract:Robots have recently started to leave their safety cages to be used in close vicinity to humans. This also causes changes in the nature of the Tasks that robots and humans solve together, i.e., in the degree of structure of the Tasks. While traditional, industrial Tasks were highly Structured, the new Tasks often have a low level of structure. We present a user study that compares a highly and a little Structured Task in a text-based computer game played by human-robot teams. The results suggest that users do not only find robots useful and motivating in highly Structured Tasks where they depend on their help, but also in little Structured Tasks that they could solve on their own.
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HRI - Useful and motivating robots: the influence of Task structure on human-robot teamwork
Proceedings of the 2014 ACM IEEE international conference on Human-robot interaction - HRI '14, 2014Co-Authors: Manja Lohse, Vanessa EversAbstract:Robots have recently started to leave their safety cages to be used in close vicinity to humans. This also causes changes in the nature of the Tasks that robots and humans solve together, i.e., in the degree of structure of the Tasks. While traditional, industrial Tasks were highly Structured, the new Tasks often have a low level of structure. We present a user study that compares a highly and a little Structured Task in a text-based computer game played by human-robot teams. The results suggest that users do not only find robots useful and motivating in highly Structured Tasks where they depend on their help, but also in little Structured Tasks that they could solve on their own.Categories and Subject DescriptorsH.m [Information Systems]: MiscellaneousGeneral TermsExperimentation
