A major concern in digital electronics used in space is radiation-induced transient errors. Radiation hardening is an effective yet costly solution to this problem. Commercial off-the-shelf (COTS) components have been considered as a low-cost alternative to radiation-hardened parts. In ARGOS project1, these two approaches are compared in an actual space experiment. We assess the effectiveness of Software-Implemented Hardware Fault Tolerance (SIHFT) techniques in enhancing the reliability of COTS. 1
In this position article, we motivate the necessity to introduce three software methods in spacecraf...
This paper addresses key issues for the cost-effective use of COTS microelectronics in radiation env...
Electronic components are used in natural radiation environment as well as in the ionizing radiation...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
This report describes the ARGOS project at Stanford CRC. The primary goals of this project are to co...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Commercial Off-The-Shelf (COTS) electronic components offer cost-effective solutions for the develop...
The use of commercial-off-the-shelf (COTS), cutting-edge processing systems in space applications ha...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Functionality of electronic components in space is strongly influenced by the impact of radiation in...
Radiation effects on space computers are becoming more of a concern as feature sizes of modern trans...
Radiation induced Single Event Effects (SEEs) are a serious problem for spacecraft flight software, ...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
International audienceIn this paper are described the motivations and main features of a flight expe...
In this position article, we motivate the necessity to introduce three software methods in spacecraf...
This paper addresses key issues for the cost-effective use of COTS microelectronics in radiation env...
Electronic components are used in natural radiation environment as well as in the ionizing radiation...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
This report describes the ARGOS project at Stanford CRC. The primary goals of this project are to co...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Commercial Off-The-Shelf (COTS) electronic components offer cost-effective solutions for the develop...
The use of commercial-off-the-shelf (COTS), cutting-edge processing systems in space applications ha...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Functionality of electronic components in space is strongly influenced by the impact of radiation in...
Radiation effects on space computers are becoming more of a concern as feature sizes of modern trans...
Radiation induced Single Event Effects (SEEs) are a serious problem for spacecraft flight software, ...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
International audienceIn this paper are described the motivations and main features of a flight expe...
In this position article, we motivate the necessity to introduce three software methods in spacecraf...
This paper addresses key issues for the cost-effective use of COTS microelectronics in radiation env...
Electronic components are used in natural radiation environment as well as in the ionizing radiation...