Virtual-channel flow control

Author

Dally, William J.

Author_Institution

Artificial Intelligence Lab., MIT, Cambridge, MA, USA

fYear

1990

Firstpage

60

Lastpage

68

Abstract

Network throughput can be increased by dividing the buffer storage associated with each network channel into several virtual channels. Each physical channel is associated with several small queues, virtual channels, rather than a single deep queue. The virtual channels associated with one physical channel are allocated independently but compete with each other for physical bandwidth. Virtual channels decouple buffer resources from transmission resources. This decoupling allows active messages to pass blocked messages using network bandwidth that would otherwise be left idle. Simulation studies show that, given a fixed amount of buffer storage per link, virtual-channel flow control increases throughput by a factor of 3.5, approaching the capacity of the network

Keywords

buffer storage; multiprocessor interconnection networks; scheduling; telecommunication channels; active messages; blocked messages; buffer resources; buffer storage per link; interconnection networks; network bandwidth; network channel; network throughput; throughput; transmission resources; virtual channels; virtual-channel flow control; Bandwidth; Buffer storage; Computer networks; Concurrent computing; Laboratories; Multiprocessor interconnection networks; Network topology; Resource management; Routing; Throughput;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Architecture, 1990. Proceedings., 17th Annual International Symposium on

Conference_Location

Seattle, WA

Print_ISBN

0-8186-2047-1

Type

conf

DOI

10.1109/ISCA.1990.134508

Filename

134508