Parallel prioritized flow scheduling for software defined data center network

Bo Yu Ke; Po-Lung Tien; Yu Lin Hsiao

doi:10.1109/HPSR.2013.6602317

Parallel prioritized flow scheduling for software defined data center network

Bo Yu Ke, Po-Lung Tien, Yu Lin Hsiao

Department of Electrical and Computer Engineering

Research output: Contribution to journal › Conference article › peer-review

12 Scopus citations

Abstract

Prioritized flow scheduling is essential for providing QoS differentiation and energy saving in data center network. While dynamically manipulating the routing paths of incoming flows becomes practical via enabling technology of software-defined network (SDN), scheduling a large amount of flows in real time remains challenging. In this paper, we propose an Iterative Parallel Grouping Algorithm (IPGA) to the prioritized flow-scheduling problem. Thanks to the inherent nature of parallelism, the IPGA-based flow scheduler not only performs fast scheduling but also can be efficiently realized by a CUDA system within the SDN controller. Via simulations, we demonstrate that the IPGA scheduler achieves QoS differentiation and promising energy saving for a Fat-tree-based network.

Original language	English
Article number	6602317
Pages (from-to)	217-218
Number of pages	2
Journal	IEEE International Conference on High Performance Switching and Routing, HPSR
DOIs	https://doi.org/10.1109/HPSR.2013.6602317
State	Published - 2013
Event	2013 IEEE 14th International Conference on High Performance Switching and Routing, HPSR 2013 - Taipei, Taiwan Duration: 8 Jul 2013 → 11 Jul 2013

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10.1109/HPSR.2013.6602317

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title = "Parallel prioritized flow scheduling for software defined data center network",

abstract = "Prioritized flow scheduling is essential for providing QoS differentiation and energy saving in data center network. While dynamically manipulating the routing paths of incoming flows becomes practical via enabling technology of software-defined network (SDN), scheduling a large amount of flows in real time remains challenging. In this paper, we propose an Iterative Parallel Grouping Algorithm (IPGA) to the prioritized flow-scheduling problem. Thanks to the inherent nature of parallelism, the IPGA-based flow scheduler not only performs fast scheduling but also can be efficiently realized by a CUDA system within the SDN controller. Via simulations, we demonstrate that the IPGA scheduler achieves QoS differentiation and promising energy saving for a Fat-tree-based network.",

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AU - Ke, Bo Yu

AU - Tien, Po-Lung

AU - Hsiao, Yu Lin

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N2 - Prioritized flow scheduling is essential for providing QoS differentiation and energy saving in data center network. While dynamically manipulating the routing paths of incoming flows becomes practical via enabling technology of software-defined network (SDN), scheduling a large amount of flows in real time remains challenging. In this paper, we propose an Iterative Parallel Grouping Algorithm (IPGA) to the prioritized flow-scheduling problem. Thanks to the inherent nature of parallelism, the IPGA-based flow scheduler not only performs fast scheduling but also can be efficiently realized by a CUDA system within the SDN controller. Via simulations, we demonstrate that the IPGA scheduler achieves QoS differentiation and promising energy saving for a Fat-tree-based network.

AB - Prioritized flow scheduling is essential for providing QoS differentiation and energy saving in data center network. While dynamically manipulating the routing paths of incoming flows becomes practical via enabling technology of software-defined network (SDN), scheduling a large amount of flows in real time remains challenging. In this paper, we propose an Iterative Parallel Grouping Algorithm (IPGA) to the prioritized flow-scheduling problem. Thanks to the inherent nature of parallelism, the IPGA-based flow scheduler not only performs fast scheduling but also can be efficiently realized by a CUDA system within the SDN controller. Via simulations, we demonstrate that the IPGA scheduler achieves QoS differentiation and promising energy saving for a Fat-tree-based network.

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JO - IEEE International Conference on High Performance Switching and Routing, HPSR

JF - IEEE International Conference on High Performance Switching and Routing, HPSR

M1 - 6602317

T2 - 2013 IEEE 14th International Conference on High Performance Switching and Routing, HPSR 2013

Y2 - 8 July 2013 through 11 July 2013

ER -

Parallel prioritized flow scheduling for software defined data center network

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