Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation hardened or at least military qualified parts for computational and other subsystems to ensure reliability in the harsh environment of space. In this paper, a parallel architecture is proposed that allows commercial devices to be incorporated into a computational unit with aggregate reliability figures approaching that of space-qualified alternatives. Apart from the common argument of cost, commercial-off-the-shelf (COTS) devices are attractive due to their relatively low power consumption and high processing performance. This paper describes a COTS-based processing architecture for space-borne computers and compares its reliability to a com...
Using COTS products, standards and intellectual properties (IPs) for all the system and component in...
Abstract—Current and future space-based processing applications are requiring, and will require, inc...
CubeSat missions, in most cases, utilize commercial off-the-shelf (COTS) components. The COTS compon...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Spacecraft typically employ rare and expensive radiation-tolerant, radiation-hardened, or at least m...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
Commercial Off-The-Shelf (COTS) electronic components offer cost-effective solutions for the develop...
A major concern in digital electronics used in space is radiation-induced transient errors. Radiatio...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
Much more than fault tolerance, space applications require dependability, which is the combination o...
By judiciously using COTS technology a new space computer product that has lower cost, higher perfor...
The computational demands of current space missions outrun the capability of available state-of-the-...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Using COTS products, standards and intellectual properties (IPs) for all the system and component in...
Abstract—Current and future space-based processing applications are requiring, and will require, inc...
CubeSat missions, in most cases, utilize commercial off-the-shelf (COTS) components. The COTS compon...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Spacecraft typically employ rare and expensive radiation-tolerant, radiation-hardened, or at least m...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
This paper presents a new concept of building a high performance, radiation hardened computer from C...
Commercial Off-The-Shelf (COTS) electronic components offer cost-effective solutions for the develop...
A major concern in digital electronics used in space is radiation-induced transient errors. Radiatio...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
Much more than fault tolerance, space applications require dependability, which is the combination o...
By judiciously using COTS technology a new space computer product that has lower cost, higher perfor...
The computational demands of current space missions outrun the capability of available state-of-the-...
Radiation hardened devices are mostly extremely expensive. The continuously downscaling of microelec...
Using COTS products, standards and intellectual properties (IPs) for all the system and component in...
Abstract—Current and future space-based processing applications are requiring, and will require, inc...
CubeSat missions, in most cases, utilize commercial off-the-shelf (COTS) components. The COTS compon...