Reconfigurable logic or Field-Programmable Gate Array (FPGA) devices have the ability to dynamically adapt the computational circuit based on user-specified or operating-condition requirements. Such hardware platforms are utilized in this dissertation to develop adaptive techniques for achieving reliable and sustainable operation while autonomously meeting these requirements. In particular, the properties of resource uniformity and in-field reconfiguration via on-chip processors are exploited to implement Evolvable Hardware (EHW). EHW utilize genetic algorithms to realize logic circuits at runtime, as directed by the objective function. However, the size of problems solved using EHW as compared with traditional approaches has been limited t...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
In this work, Field-Programmable Gate Array (FPGA) reconfigurability is exploited to realize autonom...
This chapter presents a broad range of techniques for highly reliable and survivable field programma...
The paper presents an evolutionary approach to the design of fault-tolerant VLSI (very large scale i...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
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...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
Field Programmable Gate Array (FPGA) devices offer a suitable platform for survivable hardware archi...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
Scaling of transistor's channel length is entering the realm of atomic and molecular geometries maki...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
In this work, Field-Programmable Gate Array (FPGA) reconfigurability is exploited to realize autonom...
This chapter presents a broad range of techniques for highly reliable and survivable field programma...
The paper presents an evolutionary approach to the design of fault-tolerant VLSI (very large scale i...
This paper presents an analysis of the fault tolerance achieved by an autonomous, fully embedded evo...
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...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
Field Programmable Gate Array (FPGA) devices offer a suitable platform for survivable hardware archi...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
Scaling of transistor's channel length is entering the realm of atomic and molecular geometries maki...
A quantitative stochastic design technique is developed for evolvable hardware systems with self-rep...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...