The Experts below are selected from a list of 34083 Experts worldwide ranked by ideXlab platform
Rick Koopman - One of the best experts on this subject based on the ideXlab platform.
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information systems playground the Target Infrastructure scaling astro wise into the petabyte range
Experimental Astronomy, 2013Co-Authors: Andrey Belikov, Fokke Dijkstra, Hans Gankema, Jeroen B A N Van Hoof, Rick KoopmanAbstract:The Target Infrastructure has been specially built as a storage and compute Infrastructure for the information systems derived from Astro-WISE. This Infrastructure will be used by several applications that collaborate in the area of information systems within the Target project. It currently consists of 10 PB of storage and thousands of computational cores. The Infrastructure has been constructed based on the requirements of the applications. The storage is controlled by the Global Parallel File System of IBM. This file system takes care of the required flexibility by combining storage hardware with different characteristics into a single file system. It is also very scalable, which allows the system to be extended into the future, while replacing old hardware with new technology.
Andrey Belikov - One of the best experts on this subject based on the ideXlab platform.
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information systems playground the Target Infrastructure scaling astro wise into the petabyte range
Experimental Astronomy, 2013Co-Authors: Andrey Belikov, Fokke Dijkstra, Hans Gankema, Jeroen B A N Van Hoof, Rick KoopmanAbstract:The Target Infrastructure has been specially built as a storage and compute Infrastructure for the information systems derived from Astro-WISE. This Infrastructure will be used by several applications that collaborate in the area of information systems within the Target project. It currently consists of 10 PB of storage and thousands of computational cores. The Infrastructure has been constructed based on the requirements of the applications. The storage is controlled by the Global Parallel File System of IBM. This file system takes care of the required flexibility by combining storage hardware with different characteristics into a single file system. It is also very scalable, which allows the system to be extended into the future, while replacing old hardware with new technology.
Thierry Coupaye - One of the best experts on this subject based on the ideXlab platform.
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A Demo of Application Lifecycle Management for IoT Collaborative Neighborhood in the Fog
2017Co-Authors: Loic Letondeur, François-gaël Ottogalli, Thierry CoupayeAbstract:Regarding latency, privacy, resiliency and network scarcity management, only distributed approaches such as proposed by Fog Computing architecture can efficiently address the fantastic growth of the Internet of Things (IoT). IoT applications could be deployed and run hierarchically at different levels in an Infrastructure ranging from centralized datacenters to the connected things themselves. Consequently, software entities composing IoT applications could be executed in many different configurations. The heterogeneity of the equipment and devices of the Target Infrastructure opens opportunities in the placement of the software entities, taking into account their requirements in terms of hardware, cyber-physical interactions and software dependencies. Once the most appropriate place has been found, software entities have to be deployed and run. Container-based virtualization has been considered to overpass the complexity of packaging, deploying and running software entities in a heterogeneous distributed Infrastructure at the vicinity of the connected devices. This paper reports a practical experiment presented as a live demo that showcases a " Smart Bell in a Collaborative Neighborhood " IoT application in the Fog. Application Lifecycle Management (ALM) has been put in place based on Docker technologies to deploy and run micro-services in the context of Smart Homes operated by Orange.
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a demo of application lifecycle management for iot collaborative neighborhood in the fog practical experiments and lessons learned around docker
2017 IEEE Fog World Congress (FWC), 2017Co-Authors: Loic Letondeur, François-gaël Ottogalli, Thierry CoupayeAbstract:Regarding latency, privacy, resiliency and network scarcity management, only distributed approaches such as proposed by Fog Computing architecture can efficiently address the fantastic growth of the Internet of Things (IoT). IoT applications could be deployed and run hierarchically at different levels in an Infrastructure ranging from centralized datacenters to the connected things themselves. Consequently, software entities composing IoT applications could be executed in many different configurations. The heterogeneity of the equipment and devices of the Target Infrastructure opens opportunities in the placement of the software entities, taking into account their requirements in terms of hardware, cyber-physical interactions and software dependencies. Once the most appropriate place has been found, software entities have to be deployed and run. Container-based virtualization has been considered to overpass the complexity of packaging, deploying and running software entities in a heterogeneous distributed Infrastructure at the vicinity of the connected devices. This paper reports a practical experiment presented as a live demo that showcases a “Smart Bell in a Collaborative Neighborhood” IoT application in the Fog. Application Lifecycle Management (ALM) has been put in place based on Docker technologies to deploy and run micro-services in the context of Smart Homes operated by Orange.
Fokke Dijkstra - One of the best experts on this subject based on the ideXlab platform.
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information systems playground the Target Infrastructure scaling astro wise into the petabyte range
Experimental Astronomy, 2013Co-Authors: Andrey Belikov, Fokke Dijkstra, Hans Gankema, Jeroen B A N Van Hoof, Rick KoopmanAbstract:The Target Infrastructure has been specially built as a storage and compute Infrastructure for the information systems derived from Astro-WISE. This Infrastructure will be used by several applications that collaborate in the area of information systems within the Target project. It currently consists of 10 PB of storage and thousands of computational cores. The Infrastructure has been constructed based on the requirements of the applications. The storage is controlled by the Global Parallel File System of IBM. This file system takes care of the required flexibility by combining storage hardware with different characteristics into a single file system. It is also very scalable, which allows the system to be extended into the future, while replacing old hardware with new technology.
Hans Gankema - One of the best experts on this subject based on the ideXlab platform.
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information systems playground the Target Infrastructure scaling astro wise into the petabyte range
Experimental Astronomy, 2013Co-Authors: Andrey Belikov, Fokke Dijkstra, Hans Gankema, Jeroen B A N Van Hoof, Rick KoopmanAbstract:The Target Infrastructure has been specially built as a storage and compute Infrastructure for the information systems derived from Astro-WISE. This Infrastructure will be used by several applications that collaborate in the area of information systems within the Target project. It currently consists of 10 PB of storage and thousands of computational cores. The Infrastructure has been constructed based on the requirements of the applications. The storage is controlled by the Global Parallel File System of IBM. This file system takes care of the required flexibility by combining storage hardware with different characteristics into a single file system. It is also very scalable, which allows the system to be extended into the future, while replacing old hardware with new technology.
