Paper Info
Title
R+S: An application-specific hybrid on-chip network based on self-adaptive optimization for communication
Abstract
In this paper we present R+S: a framework of application-specific hybrid on-chip network (OCN) consisting of S-NET, R-NET and a controller for collaborative work between this two sub-networks. R+S network can optimize data path allocation for time-varying communication self-adaptively. Meanwhile, a low-cost communication-aware algorithm based on least recently receive (LRR) is proposed for collaborative work controller. It can monitor the real-time traffic load and guide the collaborative process. The results show that packet latency and power dissipation for 4×4 mesh R+S network running practical application benchmarks can be improved on average by 57 and 32 percent, respectively, compared with conventional mesh network based on wormhole router using 01 turn routing.
Year
DOI
Venue
2012
10.1109/ISPACS.2012.6473564
ISPACS
Keywords
Field
DocType
communication,r-net,packet latency,least recently receive,power dissipation,ocn,mesh network,circuit optimisation,real-time traffic load,low-cost communication-aware algorithm,self-adaptive optimization,lrr,application specific integrated circuits,s-net,data path allocation,collaborative work controller,r+s network framework,noc,wormhole router,network-on-chip,on-chip network,application-specific hybrid on-chip network,self-adaptive,time-varying communication,network on chip
Mesh networking,Control theory,Latency (engineering),Computer science,Network packet,Network architecture,Computer network,Network on a chip,Application-specific integrated circuit,Network traffic control
Conference
ISBN
Citations 
PageRank 
978-1-4673-5081-5
0
0.34
References 
Authors
16
4
Name
Order
Citations
PageRank
Yuhai Li141.42
Lei Xie211.04
Kui-zhi Mei39715.55
Yuehu Liu418141.53