Title :
Temperature-aware wireless network-on-chip architecture
Author :
Shamim, M. Shahriar ; Mhatre, Aniket ; Mansoor, Naseef ; Ganguly, Amlan ; Tsouri, Gill
Author_Institution :
Rochester Inst. of Technol. Rochester, Rochester, NY, USA
Abstract :
Long-range wireless shortcuts in Network-on-Chip (NoC) architectures are shown to significantly improve energy-efficiency in on-chip data transfer. However, over-utilization of the wireless shortcuts and non-uniform traffic patterns may result in thermal hotpots in the NoC links or switches. In this work we propose a cross-layer approach of optimizing the NoC topology to achieve a balanced traffic distribution and temperature-aware routing (TAR) scheme to avoid thermal hotspots. We demonstrate that the proposed wireless NoC architecture is able to reduce temperature of NoC components and the TAR scheme is able to restrict the temperatures near a target threshold value.
Keywords :
network routing; network topology; network-on-chip; power aware computing; NoC links; NoC switches; NoC topology; TAR; cross-layer approach; energy-efficiency; long-range wireless shortcuts; nonuniform traffic patterns; on-chip data transfer; temperature-aware routing scheme; temperature-aware wireless network-on-chip architecture; thermal hotpots; thermal hotspots; wireless shortcuts; Bandwidth; Computer architecture; Measurement; Network topology; Routing; Topology; Wireless communication; Network-on-Chip; Temperature; Wireless Interconnect;
Conference_Titel :
Green Computing Conference (IGCC), 2014 International
Conference_Location :
Dallas, TX
DOI :
10.1109/IGCC.2014.7039159
