Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness
The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication n...
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| Autor*in: |
Honkanen, Risto [verfasserIn] Leppänen, Ville [author] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2012 |
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| Schlagwörter: |
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| Umfang: |
Online-Ressource |
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| Reproduktion: |
IGI Global InfoSci Journals Archive 2000 - 2012 |
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| Übergeordnetes Werk: |
In: International journal of distributed systems and technologies - Hershey, Pa : IGI Global, 2010, 3(2012), 4, Seite 52-62 |
| Übergeordnetes Werk: |
volume:3 ; year:2012 ; number:4 ; pages:52-62 |
| Links: |
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| DOI / URN: |
10.4018/jdst.2012100105 |
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NLEJ244461430 |
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| 520 | |a The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node | ||
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10.4018/jdst.2012100105 doi (DE-627)NLEJ244461430 (VZGNL)10.4018/jdst.2012100105 DE-627 ger DE-627 rakwb eng Honkanen, Risto verfasserin aut Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness 2012 Online-Ressource nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node IGI Global InfoSci Journals Archive 2000 - 2012 H-Relation Optical Communication Optical Torus Parallel Random Access Machine (PRAM) Model Wavelength-Division Multiplexing Leppänen, Ville author aut In International journal of distributed systems and technologies Hershey, Pa : IGI Global, 2010 3(2012), 4, Seite 52-62 Online-Ressource (DE-627)NLEJ24441887X (DE-600)2703236-X 1947-3540 nnns volume:3 year:2012 number:4 pages:52-62 http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105 X:IGIG Verlag Deutschlandweit zugänglich http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105&buylink=true text/html Abstract Deutschlandweit zugänglich ZDB-1-GIS GBV_NL_ARTICLE AR 3 2012 4 52-62 |
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10.4018/jdst.2012100105 doi (DE-627)NLEJ244461430 (VZGNL)10.4018/jdst.2012100105 DE-627 ger DE-627 rakwb eng Honkanen, Risto verfasserin aut Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness 2012 Online-Ressource nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node IGI Global InfoSci Journals Archive 2000 - 2012 H-Relation Optical Communication Optical Torus Parallel Random Access Machine (PRAM) Model Wavelength-Division Multiplexing Leppänen, Ville author aut In International journal of distributed systems and technologies Hershey, Pa : IGI Global, 2010 3(2012), 4, Seite 52-62 Online-Ressource (DE-627)NLEJ24441887X (DE-600)2703236-X 1947-3540 nnns volume:3 year:2012 number:4 pages:52-62 http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105 X:IGIG Verlag Deutschlandweit zugänglich http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105&buylink=true text/html Abstract Deutschlandweit zugänglich ZDB-1-GIS GBV_NL_ARTICLE AR 3 2012 4 52-62 |
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10.4018/jdst.2012100105 doi (DE-627)NLEJ244461430 (VZGNL)10.4018/jdst.2012100105 DE-627 ger DE-627 rakwb eng Honkanen, Risto verfasserin aut Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness 2012 Online-Ressource nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node IGI Global InfoSci Journals Archive 2000 - 2012 H-Relation Optical Communication Optical Torus Parallel Random Access Machine (PRAM) Model Wavelength-Division Multiplexing Leppänen, Ville author aut In International journal of distributed systems and technologies Hershey, Pa : IGI Global, 2010 3(2012), 4, Seite 52-62 Online-Ressource (DE-627)NLEJ24441887X (DE-600)2703236-X 1947-3540 nnns volume:3 year:2012 number:4 pages:52-62 http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105 X:IGIG Verlag Deutschlandweit zugänglich http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105&buylink=true text/html Abstract Deutschlandweit zugänglich ZDB-1-GIS GBV_NL_ARTICLE AR 3 2012 4 52-62 |
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10.4018/jdst.2012100105 doi (DE-627)NLEJ244461430 (VZGNL)10.4018/jdst.2012100105 DE-627 ger DE-627 rakwb eng Honkanen, Risto verfasserin aut Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness 2012 Online-Ressource nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node IGI Global InfoSci Journals Archive 2000 - 2012 H-Relation Optical Communication Optical Torus Parallel Random Access Machine (PRAM) Model Wavelength-Division Multiplexing Leppänen, Ville author aut In International journal of distributed systems and technologies Hershey, Pa : IGI Global, 2010 3(2012), 4, Seite 52-62 Online-Ressource (DE-627)NLEJ24441887X (DE-600)2703236-X 1947-3540 nnns volume:3 year:2012 number:4 pages:52-62 http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105 X:IGIG Verlag Deutschlandweit zugänglich http://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/jdst.2012100105&buylink=true text/html Abstract Deutschlandweit zugänglich ZDB-1-GIS GBV_NL_ARTICLE AR 3 2012 4 52-62 |
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Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness |
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The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node |
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The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node |
| abstract_unstemmed |
The authors present a WDM (Wavelength-Division Multiplexing) based all-optical network architecture, and study scheduled routing on it. Their architecture can be seen as a communication system of parallel multi-core computer or a large-scale high bandwidth routing switch of e.g., telecommunication network. The goal is to construct such a scalable architecture and a supporting routing protocol for it so that no electro-optical conversions are needed on the routing paths, all packets are routed along one of the shortest paths, processor nodes can inject packets constantly into the network, and all the packets injected into the routing machinery reach their targets without collisions. The authors’ CSOT is a sparse network. A large fraction of the nodes are intermediate nodes instead of processor nodes. Only the processor nodes are sources and sinks of packets. The number of all nodes is and is the number of processor nodes in our construction. For scheduled routing to work, the authors consider routing problems as a set of h-relations. They achieved work-optimal routing of -relations for a reasonable size of . The efficiency of routing is based on routing latency hiding which is made possible by WDM and sparseness based increase bandwidth per processor node |
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Routing in Coloured Sparse Optical Tori by Using Balanced WDM and Network Sparseness |
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