Title :
Error detection for adaptive computing architectures in spacecraft applications
Author :
Brodrick, D. ; Dawood, Anwar ; Bergmann, Neil ; Wark, Melanie
Author_Institution :
Cooperative Res. Centre for Satellite Syst., Queensland Univ. of Technol., Brisbane, Qld., Australia
Abstract :
The Australian FedSat satellite will incorporate a payload to validate the use of adaptive computing architectures in spacecraft applications. The technology has many exciting benefits for deployment in spacecraft, but the space environment also represents unique challenges which must be addressed. An important consideration is that modern SRAM Field Programmable Gate Arrays (FPGAs), such as the Xilinx 4000 device used on FedSat, are vulnerable to a range of radiation induced errors. A system is required to detect and mitigate these effects. General strategies have been described in the literature, but this work is believed to be the first deployment of a complete space-ready FPGA error control system. A primary aim of the system is to quantify the range of effects that occur, so emphasis is placed on classifying a wide range of errors. Different strategies have distinct capabilities so the final system employs a blend of detection techniques
Keywords :
aerospace computing; aerospace instrumentation; error detection; field programmable gate arrays; Australian FedSat satellite; SRAM FPGAs; Xilinx 4000 device; adaptive computing architectures; error control system; error detection; radiation induced errors; space environment; spacecraft applications; Australia; Computer architecture; Electronic equipment testing; Error correction; Field programmable gate arrays; Payloads; Random access memory; Satellites; Space technology; Space vehicles;
Conference_Titel :
Computer Systems Architecture Conference, 2001. ACSAC 2001. Proceedings. 6th Australasian
Conference_Location :
Gold Coast, Qld.
Print_ISBN :
0-7695-0954-1
DOI :
10.1109/ACAC.2001.903349
