Abstract
We describe a novel method for scheduling highspeed network switches. The targeted architecture is an input-buffered switch with a non-blocking switch fabric. The input buffers are organized as virtual output queues to avoid head-of-line blocking. The task of the scheduler is to decide when the input ports can forward packets from the virtual output queues to the corresponding output ports. Our Least Choice First (LCF) scheduling method selects the input and output ports to be matched by prioritizing the input ports according to the number of virtual output queues that contain packets: The fewer virtual output queues with packets, the higher- the scheduling priority, of the input port. This way the number- of switch connections and, with it, switch throughput is maximized. Fairness is provided through the addition of a round-robin algorithm. We present two alternative implementations: A central implementation intended for narrow, switches and a distributed implementation based on an iterative algorithm intended for wide switches. The simulation results show that the LCF scheduler outperforms other scheduling methods such as the parallel iterative matcher, iSLIP, and the wave front arbiter.
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