DocumentCode
1849153
Title
Delay limited packet switched data vortex network
Author
Yang, Qimin
Author_Institution
Eng. Dept., Harvey Mudd Coll., Claremont, CA, USA
fYear
2010
fDate
1-3 Feb. 2010
Firstpage
1
Lastpage
5
Abstract
In deflection based Data Vortex switching fabric networks, packets may experience additional delays that are dependent on the network operation conditions such as resource redundancy conditions, traffic loads and network sizes. Even though physical latency might still be acceptable, packets in the tail of the delay distribution may have suffered from excessive noise accumulation due to excessive number of hops and the corresponding optical signals may have too much degradation in its S/N ratio. Therefore, it is beneficial to discard these packets if possible within the network. In this study, the delay or the number of node hops is limited within the network simply by dropping the packets once their delay exceeds a preset threshold level. A centralized control signal can be used for the purpose in addition to a distributed traffic control signal that maintains the single packet routing within the nodes. Packet dropping rate in different operation conditions are studied and system implementation of the delay limited network is presented. The proposed scheme is slightly more costly with additional latency monitoring, but it is beneficial for the network manager to control the latency tail within such networks with an acceptable packet dropping rate.
Keywords
delays; optical fibre networks; optical vortices; packet switching; telecommunication network routing; telecommunication traffic; data vortex network switching fabric network; deflection routing; delay limited networks; distributed traffic control signal; network sizes; node hops; noise accumulation; packet dropping rate; packet switching; physical latency monitoring; resource redundancy; signal-to-noise ratio degradation; single packet routing; traffic loads; Added delay; Degradation; Fabrics; Optical noise; Optical packet switching; Optical vortices; Packet switching; Probability distribution; Signal to noise ratio; Telecommunication traffic; Data Vortex; deflection routing; packet switch;
fLanguage
English
Publisher
ieee
Conference_Titel
Optical Network Design and Modeling (ONDM), 2010 14th Conference on
Conference_Location
Kyoto
Print_ISBN
978-1-4244-5973-5
Electronic_ISBN
978-3-901882-40-1
Type
conf
DOI
10.1109/ONDM.2010.5431604
Filename
5431604
Link To Document