Title :
On the speedup required for work-conserving crossbar switches
Author :
Krishna, P. ; Patel, N.S. ; Charny, A. ; Simcoe, R.
Author_Institution :
Adv. Dev. Group, Digital Equip. Corp., Littleton, MA, USA
Abstract :
Describes the architecture for a work-conserving server using a combined input-output buffered crossbar switch. The switch employs a novel algorithm based on output occupancy-the Lowest-Occupancy-Output-First Algorithm (LOOFA)-and a speedup of only 2. A work-conserving switch provides the same throughput performance as an output buffered switch. The work-conserving property of the switch is independent of the switch size and input traffic pattern. We also present a suite of algorithms that can be used in combination with LOOFA. These algorithms determine the fairness and delay properties of the switch. We also describe a mechanism to provide delay bounds for real-time traffic using LOOFA. These delay bounds are achievable without requiring output buffered switch emulation
Keywords :
communication complexity; delays; network servers; performance evaluation; real-time systems; switches; telecommunication computing; telecommunication switching; telecommunication traffic; LOOFA; combined input-output buffered crossbar switch; delay bounds; fairness; input traffic pattern; lowest-occupancy-output-first algorithm; output buffered switch; output occupancy; real-time traffic; speedup; switch size; throughput performance; work-conserving crossbar switches; work-conserving server architecture; Aggregates; Bandwidth; Bipartite graph; Costs; Delay effects; Emulation; Fabrics; Switches; Throughput; Web and internet services;
Conference_Titel :
Quality of Service, 1998. (IWQoS 98) 1998 Sixth International Workshop on
Conference_Location :
Napa, CA
Print_ISBN :
0-7803-4482-0
DOI :
10.1109/IWQOS.1998.675243
