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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.
11

Projeto de Sistemas Integrados de Prop?sito Geral Baseados em Redes em Chip Expandindo as Funcionalidades dos Roteadores para Execu??o de Opera??es: A plataforma IPNoSys

Ara?jo, S?lvio Roberto Fernandes de 30 March 2012 (has links)
Made available in DSpace on 2014-12-17T15:47:00Z (GMT). No. of bitstreams: 1 SilvioRFA_TESE.pdf: 5797455 bytes, checksum: 65da3be6db5be8c8185888e31c1f294c (MD5) Previous issue date: 2012-03-30 / It bet on the next generation of computers as architecture with multiple processors and/or multicore processors. In this sense there are challenges related to features interconnection, operating frequency, the area on chip, power dissipation, performance and programmability. The mechanism of interconnection and communication it was considered ideal for this type of architecture are the networks-on-chip, due its scalability, reusability and intrinsic parallelism. The networks-on-chip communication is accomplished by transmitting packets that carry data and instructions that represent requests and responses between the processing elements interconnected by the network. The transmission of packets is accomplished as in a pipeline between the routers in the network, from source to destination of the communication, even allowing simultaneous communications between pairs of different sources and destinations. From this fact, it is proposed to transform the entire infrastructure communication of network-on-chip, using the routing mechanisms, arbitration and storage, in a parallel processing system for high performance. In this proposal, the packages are formed by instructions and data that represent the applications, which are executed on routers as well as they are transmitted, using the pipeline and parallel communication transmissions. In contrast, traditional processors are not used, but only single cores that control the access to memory. An implementation of this idea is called IPNoSys (Integrated Processing NoC System), which has an own programming model and a routing algorithm that guarantees the execution of all instructions in the packets, preventing situations of deadlock, livelock and starvation. This architecture provides mechanisms for input and output, interruption and operating system support. As proof of concept was developed a programming environment and a simulator for this architecture in SystemC, which allows configuration of various parameters and to obtain several results to evaluate it / Aposta-se na pr?xima gera??o de computadores como sendo de arquitetura com m?ltiplos processadores e/ou processadores com v?rios n?cleos. Neste sentido h? desafios relacionados aos mecanismos de interconex?o, frequ?ncia de opera??o, ?rea ocupada em chip, pot?ncia dissipada, programabilidade e desempenho. O mecanismo de interconex?o e comunica??o considerado ideal para esse tipo de arquitetura s?o as redes em chip, pela escalabilidade, paralelismo intr?nseco e reusabilidade. A comunica??o nas redes em chip ? realizada atrav?s da transmiss?o de pacotes que carregam dados e instru??es que representam requisi??es e respostas entre os elementos processadores interligados pela rede. A transmiss?o desses pacotes acontece como em um pipeline entre os roteadores da rede, da origem at? o destino da comunica??o, permitindo inclusive comunica??es simult?neas entre pares de origem e destinos diferentes. Partindo desse fato, prop?ese transformar toda a infraestrutura de comunica??o de uma rede em chip, aproveitando os mecanismos de roteamento, arbitragem e memoriza??o em um sistema de processamento paralelo de alto desempenho. Nessa proposta os pacotes s?o formados por instru??es e dados que representam as aplica??es, os quais s?o executados nos roteadores enquanto s?o transmitidos, aproveitando o pipeline das transmiss?es e a comunica??o paralela. Em contrapartida, n?o s?o utilizados processadores tradicionais, mas apenas n?cleos simples que controlam o acesso a mem?ria. Uma implementa??o dessa ideia ? a arquitetura intitulada IPNoSys (Integrated Processing NoC System), que conta com um modelo de programa??o pr?prio e um algoritmo de roteamento que garante a execu??o de todas as instru??es presentes nos pacotes, prevenindo situa??es de deadlock, livelock e starvation. Essa arquitetura apresenta mecanismos de entrada e sa?da, interrup??o e suporte ao sistema operacional. Como prova de conceito foi desenvolvido um ambiente de programa??o e simula??o para esta arquitetura em SystemC, o qual permite a configura??o de v?rios par?metros da arquitetura e obten??o dos resultados para avalia??o da mesma

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