SpaceFibre flight equipment

SpaceFibre, long paper

Stephen Parkes, Albert Ferrer Florit, Alberto Gonzalez-Villafranca, Christopher McClements, Bruce Yu, Pete Scott, Julie Logan, David McLaren

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

SpaceFibre is a new standard for spacecraft on-board data-handling networks, which runs over both electrical and fibre optic media. It provides high bandwidth, low latency, fault recovery and novel QoS that combines priority, bandwidth reservation and scheduling. SpaceFibre is backwards compatible with SpaceWire at the network level, allowing existing SpaceWire equipment to be incorporated into a SpaceFibre network without modification. SpaceFibre is now being designed into its first spaceflight missions. This paper describes SpaceFibre flight equipment being designed by STAR-Dundee for space flight applications. This includes a range of SpaceFibre IP cores targeted at radiation tolerant FPGAs and the SpaceFibre interfaces in a radiation tolerant many core DSP processor.
Original languageEnglish
Title of host publication2016 International SpaceWire Conference (SpaceWire)
Subtitle of host publicationProceedings of the 7th International SpaceWire Conference
PublisherIEEE
Pages1-6
Number of pages6
ISBN (Electronic)9780955719684
ISBN (Print)9781509008780
DOIs
Publication statusPublished - 8 Dec 2016
EventInternational SpaceWire Conference 2016 - Yokohama, Japan
Duration: 25 Oct 201727 Oct 2017
http://2016.spacewire-conference.org/
http://2016.spacewire-conference.org/

Conference

ConferenceInternational SpaceWire Conference 2016
CountryJapan
CityYokohama
Period25/10/1727/10/17
Internet address

Fingerprint

Bandwidth
Radiation
Data handling
Space flight
Fiber optics
Spacecraft
Field programmable gate arrays (FPGA)
Quality of service
Scheduling
Recovery
Intellectual property core

Keywords

  • SpaceFibre
  • SpaceWire
  • Flight Equipment
  • Networking
  • Spacecraft Electronics

Cite this

Parkes, S., Ferrer Florit, A., Gonzalez-Villafranca, A., McClements, C., Yu, B., Scott, P., ... McLaren, D. (2016). SpaceFibre flight equipment: SpaceFibre, long paper. In 2016 International SpaceWire Conference (SpaceWire): Proceedings of the 7th International SpaceWire Conference (pp. 1-6). IEEE. https://doi.org/10.1109/SpaceWire.2016.7771648
Parkes, Stephen ; Ferrer Florit, Albert ; Gonzalez-Villafranca, Alberto ; McClements, Christopher ; Yu, Bruce ; Scott, Pete ; Logan, Julie ; McLaren, David. / SpaceFibre flight equipment : SpaceFibre, long paper. 2016 International SpaceWire Conference (SpaceWire): Proceedings of the 7th International SpaceWire Conference. IEEE, 2016. pp. 1-6
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title = "SpaceFibre flight equipment: SpaceFibre, long paper",
abstract = "SpaceFibre is a new standard for spacecraft on-board data-handling networks, which runs over both electrical and fibre optic media. It provides high bandwidth, low latency, fault recovery and novel QoS that combines priority, bandwidth reservation and scheduling. SpaceFibre is backwards compatible with SpaceWire at the network level, allowing existing SpaceWire equipment to be incorporated into a SpaceFibre network without modification. SpaceFibre is now being designed into its first spaceflight missions. This paper describes SpaceFibre flight equipment being designed by STAR-Dundee for space flight applications. This includes a range of SpaceFibre IP cores targeted at radiation tolerant FPGAs and the SpaceFibre interfaces in a radiation tolerant many core DSP processor.",
keywords = "SpaceFibre, SpaceWire, Flight Equipment, Networking, Spacecraft Electronics",
author = "Stephen Parkes and {Ferrer Florit}, Albert and Alberto Gonzalez-Villafranca and Christopher McClements and Bruce Yu and Pete Scott and Julie Logan and David McLaren",
note = "The research leading to these results has received funding from the European Space Agency under ESA contract numbers 4000102641 and 17938/03/NL/LvH, from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement numbers 263148 and 284389, and from the UK Space Agency and CEOI-ST under University of Leicester contract numbers: RP10G0348A02, RP10G0348B206 and RP10G0348A207.",
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Parkes, S, Ferrer Florit, A, Gonzalez-Villafranca, A, McClements, C, Yu, B, Scott, P, Logan, J & McLaren, D 2016, SpaceFibre flight equipment: SpaceFibre, long paper. in 2016 International SpaceWire Conference (SpaceWire): Proceedings of the 7th International SpaceWire Conference. IEEE, pp. 1-6, International SpaceWire Conference 2016, Yokohama, Japan, 25/10/17. https://doi.org/10.1109/SpaceWire.2016.7771648

SpaceFibre flight equipment : SpaceFibre, long paper. / Parkes, Stephen; Ferrer Florit, Albert; Gonzalez-Villafranca, Alberto; McClements, Christopher; Yu, Bruce; Scott, Pete ; Logan, Julie; McLaren, David.

2016 International SpaceWire Conference (SpaceWire): Proceedings of the 7th International SpaceWire Conference. IEEE, 2016. p. 1-6.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AB - SpaceFibre is a new standard for spacecraft on-board data-handling networks, which runs over both electrical and fibre optic media. It provides high bandwidth, low latency, fault recovery and novel QoS that combines priority, bandwidth reservation and scheduling. SpaceFibre is backwards compatible with SpaceWire at the network level, allowing existing SpaceWire equipment to be incorporated into a SpaceFibre network without modification. SpaceFibre is now being designed into its first spaceflight missions. This paper describes SpaceFibre flight equipment being designed by STAR-Dundee for space flight applications. This includes a range of SpaceFibre IP cores targeted at radiation tolerant FPGAs and the SpaceFibre interfaces in a radiation tolerant many core DSP processor.

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Parkes S, Ferrer Florit A, Gonzalez-Villafranca A, McClements C, Yu B, Scott P et al. SpaceFibre flight equipment: SpaceFibre, long paper. In 2016 International SpaceWire Conference (SpaceWire): Proceedings of the 7th International SpaceWire Conference. IEEE. 2016. p. 1-6 https://doi.org/10.1109/SpaceWire.2016.7771648