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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

All Optical Switching Architectures

Sathyan, Saju January 2006 (has links)
<p>In communication systems, the need for high bandwidth interconnects and</p><p>efficient distribution of large amount of data is very essential. This thesis work</p><p>addresses all-optical packet switching issues in the field of reconfigurable optical</p><p>interconnection networks for high performance embedded systems. The recent</p><p>research conducted at the Halmstad University, on high performance embedded</p><p>systems, focuses on the optical interconnection techniques to achieve ultra high</p><p>throughputs and reconfigurability at the system level.</p><p>Recent research in the field of optical interconnection networks for applications</p><p>like switches and routers for data and telecommunication industry and parallel</p><p>computing architectures for embedded signal processing use optical to electrical</p><p>conversion to switch packets. This conversion scales down the enormous bandwidth</p><p>capacity of the optical communication channels to electronic processing rates. To</p><p>maintain the high throughputs all over the interconnection networks, the optical</p><p>packets need to be maintained in optical state and switched to different part of the</p><p>interconnection network. To achieve this goal, all-optical packet switching</p><p>architectures are studied. The study is concluded with a positive outlook towards alloptical</p><p>switching technologies, and it will play a very important role in the near</p><p>future in the field of optical communication, telecommunication and embedded</p><p>systems.</p>
2

All Optical Switching Architectures

Sathyan, Saju January 2006 (has links)
In communication systems, the need for high bandwidth interconnects and efficient distribution of large amount of data is very essential. This thesis work addresses all-optical packet switching issues in the field of reconfigurable optical interconnection networks for high performance embedded systems. The recent research conducted at the Halmstad University, on high performance embedded systems, focuses on the optical interconnection techniques to achieve ultra high throughputs and reconfigurability at the system level. Recent research in the field of optical interconnection networks for applications like switches and routers for data and telecommunication industry and parallel computing architectures for embedded signal processing use optical to electrical conversion to switch packets. This conversion scales down the enormous bandwidth capacity of the optical communication channels to electronic processing rates. To maintain the high throughputs all over the interconnection networks, the optical packets need to be maintained in optical state and switched to different part of the interconnection network. To achieve this goal, all-optical packet switching architectures are studied. The study is concluded with a positive outlook towards alloptical switching technologies, and it will play a very important role in the near future in the field of optical communication, telecommunication and embedded systems.
3

Investigação de técnicas fotônicas de chaveamento aplicadas em arquiteturas paralelas. / Research about photonic techniques in parallel architectures.

Martins, João Eduardo Machado Perea 20 March 1998 (has links)
Este trabalho apresenta um estudo sobre redes ópticas de interconexão aplicadas em arquiteturas paralelas, onde são propostos, simulados e analisados alguns modelos de redes. Essa é uma importante pesquisa, pois, as redes de interconexão influenciam diretamente o custo e desempenho das arquiteturas paralelas de computadores. O primeiro modelo de rede óptica proposto é chamado de SCF (Sistema Circular com Filas). Esse e um sistema sem colisões, onde há um canal exclusivo para controle de comunicação e cada nó possui um canal exclusivo para recepção de dados. Esse sistema tem um desempenho com alta taxa de vazão, alto nível de utilização e pequenas filas. Para a simulação da rede SCF foi desenvolvido um simulador dedicado, cuja adaptação para a simulação de outros modelos de redes, propostos nesse trabalho, foi facilmente realizada. Neste trabalho também foram propostos, simulados e analisados três modelos diferentes de chaves ópticas de distribuição para arquitetura paralela do tipo Dataflow. Os resultados dessas simulações mostram que componentes ópticos relativamente simples podem ser utilizados no desenvolvimento de sistemas de alto desempenho. / This work presents a study about optical interconnection network applied to parallel computer architectures, where is proposed, simulated and analyzed some models of optical interconnection networks. It is an important research because the interconnection networks influence directly the cost and performance of parallel computer architectures. The first optical interconnection network model proposed in this work is called SCF (Sistema Circular com Filas). It is a system without collisions, where there is a dedicated channel for communication control and each node has a fixed channel for data reception. The system has a performance with high throughput, high utilization leve1 and small queue size. For the SCF simulation was developed a dedicated simulator, whose adjust to simulate others optical interconnection network, proposed in this work, was easily performed. In this work also were proposed, simulated and analyzed three different models of optical distributing network for Dataflow computer architecture, whose results shows that single optical devises can ensure the development of high performance systems.
4

Investigação de técnicas fotônicas de chaveamento aplicadas em arquiteturas paralelas. / Research about photonic techniques in parallel architectures.

João Eduardo Machado Perea Martins 20 March 1998 (has links)
Este trabalho apresenta um estudo sobre redes ópticas de interconexão aplicadas em arquiteturas paralelas, onde são propostos, simulados e analisados alguns modelos de redes. Essa é uma importante pesquisa, pois, as redes de interconexão influenciam diretamente o custo e desempenho das arquiteturas paralelas de computadores. O primeiro modelo de rede óptica proposto é chamado de SCF (Sistema Circular com Filas). Esse e um sistema sem colisões, onde há um canal exclusivo para controle de comunicação e cada nó possui um canal exclusivo para recepção de dados. Esse sistema tem um desempenho com alta taxa de vazão, alto nível de utilização e pequenas filas. Para a simulação da rede SCF foi desenvolvido um simulador dedicado, cuja adaptação para a simulação de outros modelos de redes, propostos nesse trabalho, foi facilmente realizada. Neste trabalho também foram propostos, simulados e analisados três modelos diferentes de chaves ópticas de distribuição para arquitetura paralela do tipo Dataflow. Os resultados dessas simulações mostram que componentes ópticos relativamente simples podem ser utilizados no desenvolvimento de sistemas de alto desempenho. / This work presents a study about optical interconnection network applied to parallel computer architectures, where is proposed, simulated and analyzed some models of optical interconnection networks. It is an important research because the interconnection networks influence directly the cost and performance of parallel computer architectures. The first optical interconnection network model proposed in this work is called SCF (Sistema Circular com Filas). It is a system without collisions, where there is a dedicated channel for communication control and each node has a fixed channel for data reception. The system has a performance with high throughput, high utilization leve1 and small queue size. For the SCF simulation was developed a dedicated simulator, whose adjust to simulate others optical interconnection network, proposed in this work, was easily performed. In this work also were proposed, simulated and analyzed three different models of optical distributing network for Dataflow computer architecture, whose results shows that single optical devises can ensure the development of high performance systems.

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