@inproceedings{KSEE16,
author = {Adam Kostrzewa, Selma Saidi, Leonardo Ecco and Rolf Ernst},
title = {Dynamic admission control for real-time networks-on-chips.},
year = {2016},
pages = {719-724},
month = {January},
note = {ssaidi, ESD},
address = {Macao},
howpublished = {16-85 KSEE16 ASPDAC},
booktitle = {In Proceedings of the 21st Asia and South Pacific Design Automation Conference (ASP-DAC)},
abstract = {Networks-on-Chip (NoCs) for real-time systems require solutions for safe and predictable sharing of network resources between transmissions with different quality-of service requirementrs. In this work, we present a mechanism for a global and dynamic admission control in NoCs designed for realtime systems. It introduces an overlay network to synchronize transmissions using arbitration units called Resource Managers (RMs), which allows a global and work-conserving scheduling. We present a formal worst-case timing analysis for the proposed mechanism and demonstrate that this solution not only exposes higher performance in simulation but, even more importantly, consistently reaches smaller formally guaranteed worst-case latencies than TDM for realistic levels of system's utilization. Our mechanism does not require modification of routers and therefore can be used together with any architecture utilizing non-blocking routers.}
}

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