Title :
Closed loop credit-based flow control with internal backpressure in input and output queued switches
Author :
Schoenen, Rainer ; Dahlhoff, Achim
Author_Institution :
Inst. for Integrated Signal Processing Syst., Aachen Univ. of Technol., Germany
Abstract :
A credit-based flow control scheme is very effective for handling cells of the ABR or controlled transfer service class in ATM networks. The properties of immediate ramp-up after congestion and the impossibility of buffer overflow by construction are what makes this method very attractive. For best results, many switches along the route must support flow control, acting as virtual source/destination node. To support closed loops along the route each of these switches must also provide an internal flow control to pass the backpressure from the destinations back to the sources and avoid internal buffer overflow. We treat the interaction of external and internal flow control and the alternatives of internal backpressure mechanisms, emphasizing virtual-output-queued switches. The properties are studied with Petri net models
Keywords :
Petri nets; asynchronous transfer mode; buffer storage; closed loop systems; packet switching; queueing theory; telecommunication congestion control; telecommunication networks; ABR service; ATM networks; Petri net models; buffer overflow; closed loop credit-based flow control; congestion control; controlled transfer service class; external flow control; input queued switch; internal backpressure; internal flow control; output queued switch; virtual source/destination node; virtual-output-queued switches; Asynchronous transfer mode; Buffer overflow; Control systems; Pressure control; Propagation delay; Signal processing; Switches; Throughput; Vents; Virtual colonoscopy;
Conference_Titel :
High Performance Switching and Routing, 2000. ATM 2000. Proceedings of the IEEE Conference on
Conference_Location :
Heidelberg
Print_ISBN :
0-7803-5884-8
DOI :
10.1109/HPSR.2000.856664
