As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, the need for self-reliance of deployed systems becomes increasingly prominent. A Sustainable Modular Adaptive Redundancy Technique (SMART) composed of a dual-layered organic system is proposed, analyzed, implemented, and experimentally evaluated. SMART relies upon a variety of self-regulating properties to control availability, energy consumption, and area used, in dynamically-changing environments that require high degree of adaptation. The hardware layer is implemented on a Xilinx Virtex-4 Field Programmable Gate Array (FPGA) to provide self-repair using a novel approach called a Reconfigurable Adaptive Redundancy System (RARS). The softwar...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
Contemporary reconfigurable hardware devices have the capability to achieve high performance, power ...
The new generations of SRAM-based FPGA devices, built on nanometer technology, are the preferred cho...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
A Sustainable Autonomic Architecture for Organically Reconfigurable Computing System based on SRAM F...
Field Programmable Gate Array (FPGA) devices offer a suitable platform for survivable hardware archi...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
The new generations of SRAM-based FPGA (Field Programmable Gate Array) devices, built on nanometre t...
A sustainable Evolvable Hardware (EH) system is developed for SRAM-based reconfigurable Field Progra...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Reconfigurable logic or Field-Programmable Gate Array (FPGA) devices have the ability to dynamically...
Mission-critical systems require increasing capability for fault handling and self-adaptation as the...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
This chapter presents a broad range of techniques for highly reliable and survivable field programma...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
Contemporary reconfigurable hardware devices have the capability to achieve high performance, power ...
The new generations of SRAM-based FPGA devices, built on nanometer technology, are the preferred cho...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
A Sustainable Autonomic Architecture for Organically Reconfigurable Computing System based on SRAM F...
Field Programmable Gate Array (FPGA) devices offer a suitable platform for survivable hardware archi...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
The new generations of SRAM-based FPGA (Field Programmable Gate Array) devices, built on nanometre t...
A sustainable Evolvable Hardware (EH) system is developed for SRAM-based reconfigurable Field Progra...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
Reconfigurable logic or Field-Programmable Gate Array (FPGA) devices have the ability to dynamically...
Mission-critical systems require increasing capability for fault handling and self-adaptation as the...
In this dissertation, a novel self-repair approach based on Consensus Based Evaluation (CBE) for aut...
This chapter presents a broad range of techniques for highly reliable and survivable field programma...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
Contemporary reconfigurable hardware devices have the capability to achieve high performance, power ...
The new generations of SRAM-based FPGA devices, built on nanometer technology, are the preferred cho...