The harsh radiation environment of space, the propensity for SEUs to perturb the operations of silicon based electronics, the rapid development of microprocessor capabilities and hence software applications, and the high cost (dollars and time) to develop and prove a system, require flexible, reliable, low cost, rapidly developed system solutions. Consequently, a reconfigurable Triple Modular Redundant (TMR) System-on-a-Chip (SOC) utilizing Field Programmable Gate Arrays (FPGAs) provides a viable solution for space based systems. The Configurable Fault Tolerant Processor (CFTP) is such a system, designed specifically for the purpose of testing and evaluating, on orbit, the reliability of instantiated TMR soft-core microprocessors, as well a...
Fault-tolerant processors are essential for spacecraft because of the high-radiation environment of ...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Radiation hardening for coping with cosmic-ray-induced faults in electronic equipment has always bee...
There are many unique challenges associated with providing remote access to space experimental paylo...
Sterpone L, Porrmann M, Hagemeyer J. A Novel Fault Tolerant and Runtime Reconfigurable Platform for ...
A satellite to be used as a testbed for experiments such as the Configurable Fault Tolerant Processo...
The purpose of this thesis is to design and test a fault–tolerant reduced instruction set computer p...
The configurable fault-tolerant processor (CFTP) project was intended to develop the means for a sys...
The performance, in-system reprogrammability, flexibility, and reduced costs of SRAM-based FPGAs mak...
Current and future space missions demand sophisticated on-board data processing functionalities, whi...
Functionality of electronic components in space is strongly influenced by the impact of radiation in...
The Radiation Tolerant, FPGA-based SmallSat Computer System (RadSat) computing platform exploits a c...
This research contributes to a better understanding of how reconfigurable Field Programmable Gate Ar...
This work describes the radiation testing of a fault simulation tool used to study the behavior of F...
Commercial digital signal processors (DSPs) for use in high-speed satellite computers are challenged...
Fault-tolerant processors are essential for spacecraft because of the high-radiation environment of ...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Radiation hardening for coping with cosmic-ray-induced faults in electronic equipment has always bee...
There are many unique challenges associated with providing remote access to space experimental paylo...
Sterpone L, Porrmann M, Hagemeyer J. A Novel Fault Tolerant and Runtime Reconfigurable Platform for ...
A satellite to be used as a testbed for experiments such as the Configurable Fault Tolerant Processo...
The purpose of this thesis is to design and test a fault–tolerant reduced instruction set computer p...
The configurable fault-tolerant processor (CFTP) project was intended to develop the means for a sys...
The performance, in-system reprogrammability, flexibility, and reduced costs of SRAM-based FPGAs mak...
Current and future space missions demand sophisticated on-board data processing functionalities, whi...
Functionality of electronic components in space is strongly influenced by the impact of radiation in...
The Radiation Tolerant, FPGA-based SmallSat Computer System (RadSat) computing platform exploits a c...
This research contributes to a better understanding of how reconfigurable Field Programmable Gate Ar...
This work describes the radiation testing of a fault simulation tool used to study the behavior of F...
Commercial digital signal processors (DSPs) for use in high-speed satellite computers are challenged...
Fault-tolerant processors are essential for spacecraft because of the high-radiation environment of ...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Radiation hardening for coping with cosmic-ray-induced faults in electronic equipment has always bee...