An Input-Queueing TSN Switching Architecture to Achieve Zero Packet Loss for Timely Traffic
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Zero packet loss with bounded latency is a must for many applications such as industrial control networks, automotive Ethernet, and aircraft communication systems. Traditional networks cannot meet such strict requirement and thus Time-Sensitive Networking (TSN) emerges. TSN is a set of standards proposed by IEEE 802 for providing deterministic connectivity in terms of low packet loss, low packet delay variation, and guaranteed packet transport. However, to the best of our knowledge, few of existing TSN solutions can deterministically achieve zero packet loss with bounded latency. This paper fills in this blank by proposing a novel input-queueing TSN switching architecture, under which we design a TDMA-like scheduling policy (called M-TDMA) along with a sufficient condition, and an EDF-like scheduling policy (called M-EDF) along with a different sufficient condition to achieve zero packet loss with bounded latency.
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