In order to widen the spectrum of available products, companies involved in space electronics are exploring the possible adoption of COTS components instead of space-qualified ones. However, the adoption of COTS devices and boards requires suitable solutions able to guarantee the same level of dependability. A mix of different solutions can be considered for this purpose. Test techniques play a major role, since they must guarantee that a high percentage of permanent faults can be detected (both at the end of the manufacturing and during the mission) while matching several constraints in terms of system accessibility and hardware complexity. In this paper we focus on the test of the electronics used within launchers, and outline an approach based on Software-based Self-test. The proposed solutions are currently being adopted within the MaMMoTH-Up project, targeting the development of an innovative COTS-based system to be used on the Ariane5 launcher. The approach aims at testing both the OR1200 processor and the different peripheral modules adopted in the system, while providing new techniques for the identification of safe faults. The results show the effectiveness and current limitations of the method, also including a comparison between functional and structural test approaches.
Correction to: Improved Test Solutions for COTS-Based Systems in Space Applications / Cantoro, Riccardo; Carbonara, Sara; Floridia, Andrea; Sanchez, Ernesto; Sonza Reorda, Matteo; Mess, Jan-Gerd (IFIP ADVANCES IN INFORMATION AND COMMUNICATION TECHNOLOGY). - In: VLSI-SoC: Design and Engineering of Electronics Systems Based on New Computing ParadigmsELETTRONICO. - [s.l] : Springer, Cham, 2019. - ISBN 978-3-030-23424-9. - pp. 187-206 [10.1007/978-3-030-23425-6_14]
Correction to: Improved Test Solutions for COTS-Based Systems in Space Applications
Cantoro, Riccardo;Carbonara, Sara;Floridia, Andrea;Sanchez, Ernesto;Sonza Reorda, Matteo;
2019
Abstract
In order to widen the spectrum of available products, companies involved in space electronics are exploring the possible adoption of COTS components instead of space-qualified ones. However, the adoption of COTS devices and boards requires suitable solutions able to guarantee the same level of dependability. A mix of different solutions can be considered for this purpose. Test techniques play a major role, since they must guarantee that a high percentage of permanent faults can be detected (both at the end of the manufacturing and during the mission) while matching several constraints in terms of system accessibility and hardware complexity. In this paper we focus on the test of the electronics used within launchers, and outline an approach based on Software-based Self-test. The proposed solutions are currently being adopted within the MaMMoTH-Up project, targeting the development of an innovative COTS-based system to be used on the Ariane5 launcher. The approach aims at testing both the OR1200 processor and the different peripheral modules adopted in the system, while providing new techniques for the identification of safe faults. The results show the effectiveness and current limitations of the method, also including a comparison between functional and structural test approaches.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2748752
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