The Experts below are selected from a list of 291 Experts worldwide ranked by ideXlab platform
Francisco J Quiles - One of the best experts on this subject based on the ideXlab platform.
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mmr a high performance multimedia router architecture and design trade offs
High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
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HPCA - MMR: a high-performance MultiMedia Router-architecture and design trade-offs
Proceedings Fifth International Symposium on High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
Kang Xiao-fen - One of the best experts on this subject based on the ideXlab platform.
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The Demonstration and Approximation Research on Surface Water Quality Evaluation Method
Environmental Monitoring in China, 2014Co-Authors: Kang Xiao-fenAbstract:Evaluation of surface water of seven river chains nationwide respectively by Averaging method,Section ratio method,mean value of the grey Relational analysis,Averaging method,mean value of fuzzy comprehensive Evaluation method,Fuzzy Comprehensive Evaluation,Fuzzy Comprehensive Evaluation-Section ratio method shows that: the difference between Averaging method and Section ratio method is that most of river chains water quality grade change,but goes in different direction; that according to Grey Relational Analysis and Fuzzy Comprehensive Evaluation, water quality grade improves, and Fuzzy Comprehensive Evaluation has advantage in applicability and accuracy.
José Duato - One of the best experts on this subject based on the ideXlab platform.
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mmr a high performance multimedia router architecture and design trade offs
High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
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HPCA - MMR: a high-performance MultiMedia Router-architecture and design trade-offs
Proceedings Fifth International Symposium on High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
Andrzej Duda - One of the best experts on this subject based on the ideXlab platform.
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WalT: A reproducible testbed for reproducible network experiments
Proceedings - IEEE INFOCOM, 2016Co-Authors: Pierre Brunisholz, Etienne Duble, Franck Rousseau, Andrzej DudaAbstract:Testing wireless networks is a challenging task, so many research papers limit their Evaluation Section to simulation. At the same time, several large-scale publicly shared testbeds such as ORBIT, w-iLab.t, or IoT-LAB propose valuable means for validating new protocols. They make experimenting possible and support some level of experiment reproducibility. However, they offer operating conditions that are fixed and significantly differ from real-world deployments. As the performance of wireless networks strongly depends on the platform, topology, and operating conditions, validating protocols in artificial conditions may not lead to meaningful results. In this paper, we describe WalT, a reproducible platform to run reproducible experiments. WalT nodes are single-board computers on which users can deploy their OS (filesystem, kernel) packaged as a docker image for easy customization and sharing. With low-cost small-sized standard components and free software, researchers can easily reproduce their own WalT platform to validate results in real-world conditions. WalT can support mobile demos that you can bring around in your backpack. The total control on WalT nodes allows setting up diverse experiment scenarios ranging, for instance, from Wi-Fi handover measurements to evaluating routing protocols in wireless sensor networks.
Sudhakar Yalamanchili - One of the best experts on this subject based on the ideXlab platform.
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mmr a high performance multimedia router architecture and design trade offs
High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
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HPCA - MMR: a high-performance MultiMedia Router-architecture and design trade-offs
Proceedings Fifth International Symposium on High-Performance Computer Architecture, 1999Co-Authors: José Duato, Sudhakar Yalamanchili, Maria Blanca Caminero, Damon S Love, Francisco J QuilesAbstract:This paper presents the architecture of a router designed to efficiently support traffic generated by multimedia applications. The router is targeted for use in clusters and LANs rather than in WANs, the latter being served by communication substrates such as ATM. The distinguishing features of the proposed router architecture are the use of small fixed-size buffers, a large number of virtual channels, link-level virtual channel flow control, support for dynamic modification of connection bandwidth and priorities, and coordinated scheduling of connections across all output channels. The paper begins with a discussion of the design choices and architectural trade-offs made in the current MultiMedia Router (MMR) project. The performance Evaluation Section presents some preliminary results of the coordinated scheduling of constant bit rate (CBR) traffic streams.
