Tightness and Computation Assessment of Worst-Case Delay Bounds in Wormhole Networks-On-Chip
Résumé
This paper addresses the problem of worst-case timing analysis in wormhole Networks-On-Chip (NoCs). We consider our previous work [5] for computing maximum delay bounds using Network Calculus, called the Buffer-Aware Worst-case Timing Analysis (BATA). The latter allows the computation of delay bounds for a large panel of wormhole NoCs, e.g., handling priority-sharing, Virtual Channel Sharing and buffer backpressure.In this paper, we provide further insights into the tightness and computation issues of the worst-case delay bounds yielded by BATA. Our assessment shows that the gap between the
computed delay bounds and the worst-case simulation results is reasonably small (70% tightness on average). Furthermore, BATA provides good delay bounds for medium-scale configurations within less than one hour. Finally, we evaluate the yielded improvements with BATA for a realistic use-case against a recent state-of-the-art approach. This evaluation shows the applicability of BATA under more general assumptions and the impact of such a feature on the tightness and computation time.
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