Title :
Flow control in a high-speed bus-based ATM switching hub
Author :
Song Chong ; Nagarajan, Ramesh ; Wang, Yung-Terng
Author_Institution :
Dept. of Electron. Eng., Sogang Univ., Seoul, South Korea
Abstract :
Studies flow control in a high-speed bus-based ATM switching hub for premises switching. The switching fabric is a dual-bus with slots for diverse port cards that interface to the external world. There can be a significant discrepancy in the switching fabric speed and the port card speed. This can result in buffer overflows at the receiving port buffer and consequently high losses in the switching fabric. Adequate flow control mechanisms are necessary. This paper first examines two different flow control strategies. Then we consider a third hybrid strategy which combines the strengths of the first two strategies. In the first flow control scheme, physical flow control, all streams destined to a receiver with buffer problems such as high occupancy and loss are shut down till the congestion is cleared. This scheme has the advantage that loss is severely limited but has the disadvantage that high-rate streams arriving at this buffer can in some circumstances starve lower-rate streams. In a second strategy, logical flow control, streams are implicitly selected based on their rates and shut down. This scheme has the advantage that the higher-rate streams will eventually be shut down more often and hence cannot overwhelm the lower-rate streams. However, loss is not easily controlled in this scheme. Finally, in a hybrid strategy, we combine physical and logical flow control with logical control activated first and physical control activated later when the logical control is unable to limit the buffer occupancy and loss. This hybrid strategy is the recommended choice for flow control in the setting of interest
Keywords :
asynchronous transfer mode; buffer storage; telecommunication congestion control; buffer overflows; congestion; dual-bus; flow control; high-rate streams; high-speed bus-based ATM switching hub; hybrid strategy; logical flow control; losses; low-rate streams; occupancy; physical flow control; port card speed; premises switching; receiving port buffer; switching fabric speed; Asynchronous transfer mode; Bridge circuits; Buffer overflow; Costs; Distributed computing; Ethernet networks; Fabrics; Telecommunication traffic; Telephony; Time division multiplexing;
Conference_Titel :
Broadband Switching Systems Proceedings, 1997. IEEE BSS '97., 1997 2nd IEEE International Workshop on
Conference_Location :
Taiwan
Print_ISBN :
0-7803-4443-X
DOI :
10.1109/BSS.1997.658918