Title :
A novel non-minimal turn model for highly adaptive routing in 2D NoCs
Author :
Kumar, Manoj ; Laxmi, V. ; Gaur, M.S. ; Daneshtalab, Masoud ; Zwolinski, Mark
Author_Institution :
Malaviya Nat. Inst. of Technol., Jaipur, India
Abstract :
Network-on-Chip (NoC) is emerging as a promising communication paradigm to overcome bottleneck of traditional bus-based interconnects for future micro-architectures (MPSoC and CMP). One of current issue in NoC routing is the use of acyclic channel dependency graph (ACDG) for deadlock freedom prohibiting certain routing turns. Thus, ACDG reduces the degree of adaptiveness. In this paper, we propose a novel nonminimal turn model which allows cycles in channel dependency graph provided that extended channel dependency graph is acyclic. Proposed turn model reduces number of restrictions on routing turns (specially on 90-degree), hence able to provide additional minimal and non-minimal routes between source and destination. We also propose a non-minimal and congestion-aware adaptive routing algorithm based on proposed turn model to demonstrate advantages. From results, we can observe that proposed method improves the network performance by distributing the traffic load in the non-congested regions.
Keywords :
graph theory; network routing; network-on-chip; 2D NoC; ACDG; CMP; MPSoC; NoC; acyclic channel dependency graph; bus-based interconnects; congestion-aware adaptive routing algorithm; deadlock freedom; extended channel dependency graph; micro-architectures; minimal routes; network performance improvement; network-on-chip; noncongested regions; nonminimal turn model; routing turns; traffic load; Adaptation models; Algorithm design and analysis; Clocks; Heuristic algorithms; Routing; System recovery; Networks-on-Chip congestion; deadlock freedom; non-minimal paths; real traffic; routing;
Conference_Titel :
Very Large Scale Integration (VLSI-SoC), 2014 22nd International Conference on
Conference_Location :
Playa del Carmen
DOI :
10.1109/VLSI-SoC.2014.7004192
