Abstract
Increasing miniaturization is posing multiple challenges to electronic designers. In the context of multi-processor system-on-chips (MPSoCs), we focus on the problem of implementing efficient interconnect systems for devices which are ever more densely packed with parallel computing cores. Easily seen that traditional buses can not provide enough bandwidth, a revolutionary path to scalability is provided by packet-switched network-on-chips (NoCs), while a more conservative approach dictates the addition of bandwidth-rich components (e.g. crossbars) within the preexisting fabrics. While both alternatives have already been explored, a thorough contrastive analysis is still missing. In this paper, we bring crossbar and NoC designs to the chip layout level in order to highlight the respective strengths and weaknesses in terms of performance, area and power, keeping an eye on future scalability
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