부산대학교 도서관

The importance of the interconnection network is growing as the number of cores integrated on a chip increases. Communication among nodes becomes a bottleneck and impacts system performance and power consumption. This work targets general purpose CMPs, where there is a rising concern about finding low-power alternatives. We explore the implications of the interconnect choice on overall performance by comparing the behaviour of three topologies: ring, mesh, and torus. We also evaluate two additional ring configurations (one with increased bandwidth and another with reduced-pipeline routers) and concentrated versions of the topologies. Running full-system simulations allows us to carefully model the processors, memory hierarchy, and interconnection network, and execute realistic parallel and multiprogrammed workloads. We determine that the network diameter is critical for system performance and that a concentrated mesh offers the best area-energy-delay tradeoff for both 16 and 64-core chips. Traffic is very light and highly unbalanced, asserting the need for an heterogeneous network with more resources located in specific areas.