Paper Info
Title
Communication Aware Design Method for Optical Network-on-Chip
Abstract
Optical technology promises to solve the bottleneck communication in Multiprocessor Systems-on-Chip (MPSoCs) by integrating high speed interconnections. From the system point of view, one of the most critical problems in optical communication is channel bandwidth, strongly influencing the system performance and cost. Channel bandwidth establishes the number of waveguides and wavelengths to serve each communication request. Dynamic approaches allow to define the channel bandwidth at the runtime, which leads flexible systems but may turn their performance unpredictable. Design-time approaches appear as an attractive alternative to define the channel bandwidth for systems that require performance guarantees and simple solutions. A method for exploring the channel bandwidth design space is thus mandatory in order to identify the best communication channel size. In this work we explore the trade-off among channel bandwidth alternatives, performance, area and power. We show that the channel size has a strong impact on the system performance and cost. We employ synthetic and real application traffic which has been executed on Gem5. As a result we show that different channel bandwidth can improve the execution time of an application up to 75% while including low area and power penalties.
Year
DOI
Venue
2015
10.1109/MCSoC.2015.33
MCSoC
Keywords
Field
DocType
component, Silicon Photonics, Network-on-Chip, Interface, Design exploration
Bottleneck,Optical engineering,Optical communication,Network on a chip,Communication channel,Electronic engineering,Multiprocessing,Dynamic bandwidth allocation,Engineering,Channel capacity
Conference
Citations 
PageRank 
References 
1
0.36
13
Authors
8
Name
Order
Citations
PageRank
Johanna Sepúlveda110.36
Sébastien Le Beux215519.04
Jiating Luo351.78
Cedric Killian410.36
Daniel Chillet519326.12
Hui Li6444.99
Ian O'Connor726334.46
Olivier Sentieys859773.35