For FPGA-based applications in harsh radiation environments, designers apply mitigation techniques according the worst-case (solar) condition to achieve a dependable design. This results in a resource overhead, which is most of the time unnecessary. To overcome this problem, an adaptive mitigation technique is used, which is a trade-off between two parameters, such as performance and reliability. We propose an Adaptive Single-Event Effect Mitigation (ASEEM) method, based on FPGA reconfiguration between a performance mode and a reliability mode. The performance mode offers high processing power and the reliability mode offers a high dependability. We evaluate ASEEM by calculating results using particle flux data from 2010 until 2017 for one ...
The constantly increasing memory density and performance of recent Field Programmable Gate Arrays (F...
Due to technology scaling, which means smaller transistor, lower voltage and more aggressive clock f...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
This thesis discusses adaptive mitigation of non-destructive radiation effects (static single-event ...
In this paper, we propose a self-adaptive FPGAbased, partially reconfigurable system for space missi...
Radiation tolerance in FPGAs is an important field of research particularly for reliable computation...
This paper discusses the application of Space Micro‘s Time-Triple Modular Redundancy (TTMR™) and Har...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
This study establishes the optimal Single Event Upset (SEU) mitigation strategy for Xilinx's 7-Serie...
The flexibility combined with the computational capabilities of FPGAs make them a very attractive so...
Commercial SRAM-based FPGAs have the potential to provide aerospace applications with the necessary ...
FPGAs are an attractive alternative for many space-based computing operations. While radiation harde...
Emerging technology is enabling the design community to consistently expand the amount of functional...
In this paper, we study the performance of a Block RAM (BRAM)-based embedded radiation sensor for ad...
Technology is changing at a fast pace. Transistor geometries are getting smaller, voltage thresholds...
The constantly increasing memory density and performance of recent Field Programmable Gate Arrays (F...
Due to technology scaling, which means smaller transistor, lower voltage and more aggressive clock f...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
This thesis discusses adaptive mitigation of non-destructive radiation effects (static single-event ...
In this paper, we propose a self-adaptive FPGAbased, partially reconfigurable system for space missi...
Radiation tolerance in FPGAs is an important field of research particularly for reliable computation...
This paper discusses the application of Space Micro‘s Time-Triple Modular Redundancy (TTMR™) and Har...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
This study establishes the optimal Single Event Upset (SEU) mitigation strategy for Xilinx's 7-Serie...
The flexibility combined with the computational capabilities of FPGAs make them a very attractive so...
Commercial SRAM-based FPGAs have the potential to provide aerospace applications with the necessary ...
FPGAs are an attractive alternative for many space-based computing operations. While radiation harde...
Emerging technology is enabling the design community to consistently expand the amount of functional...
In this paper, we study the performance of a Block RAM (BRAM)-based embedded radiation sensor for ad...
Technology is changing at a fast pace. Transistor geometries are getting smaller, voltage thresholds...
The constantly increasing memory density and performance of recent Field Programmable Gate Arrays (F...
Due to technology scaling, which means smaller transistor, lower voltage and more aggressive clock f...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...