Thomas Ferrandiz scite author profile

The SpaceWire network standard is promoted by the ESA and is scheduled to be used as the sole on-board network for future satellites. This network uses a wormhole routing mechanism that can lead to packet blocking in routers and consequently to variable end-to-end delays. As the network will be shared by real-time and non realtime traffic, network designers require a tool to check that temporal constraints are verified for all the critical messages.Network Calculus can be used for evaluating worstcase end-to-end delays. However, we first have to model SpaceWire components through the definition of service curves. In this paper, we propose a new Network Calculus element that we call the Wormhole Section. This element allows us to better model a wormhole network than the usual multiplexer and demultiplexer elements used in the context of usual Store-and-Forward networks.

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A Network Calculus Model for SpaceWire Networks

Ferrandiz¹,

Frances²,

Fraboul³

2011

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A Sensitivity Analysis of Two Worst-Case Delay Computation Methods for SpaceWire Networks

Ferrandiz

Frances

Fraboul

2012

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Worst-case end-to-end delays evaluation for SpaceWire networks

Ferrandiz

Frances

Fraboul

2011

Discrete Event Dyn Syst

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SpaceWire is a standard for on-board satellite networks chosen by the ESA as the basis for multiplexing payload and control traffic on future data-handling architectures. However, network designers need tools to ensure that the network is able to deliver critical messages on time. Current research fails to address this needs for SpaceWire networks. On one hand, many papers only seek to determine probabilistic results for end-to-end delays on Wormhole networks like SpaceWire. This does not provide sufficient guarantee for critical traffic. On the other hand, a few papers give methods to determine maximum latencies on wormhole networks that, unlike SpaceWire, have dedicated real-time mechanisms built-in. Thus, in this paper, we propose an appropriate method to compute an upper-bound on the worstcase end-to-end delay of a packet in a SpaceWire network.

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