© 2014 IEEE. Recent trends in semiconductor technology have dictated the constant reduction of device size. One negative effect stemming from the reduction in size and increased complexity is the reduced device reliability. This paper is centered around the matter of permanent fault tolerance and graceful system degradation in the presence of permanent faults. We take advantage of the natural redundancy of homogeneous multicores following a sparing strategy to reuse functional pipeline stages of faulty cores. This is done by incorporating reconfigurable interconnects next to which the cores of the system are placed, providing the flexibility to redirect the data-flow from the faulty pipeline stages of damaged cores to spare (still) function...
Reconfigurable hardware can be employed to tolerate permanent faults. Hardware components comprising...
This thesis is a contribution at the architectural level to the improvement of fault-tolerance in ma...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
\ua9 2014 IEEE. Recent trends in semiconductor technology have dictated the constant reduction of de...
Recent trends in transistor technology have dictated the constant reduction of device size. One nega...
This article presents a chip multiprocessor (CMP) design that mixes coarse- and fine-grained reconfi...
Advances in semiconductor industry have led to reduced transistor dimensions andincreased device den...
L'augmentation continue de la puissance de calcul requise par les applications telles que la cryptog...
In large VLSI/WSI arrays, improved reliability and yield can be obtained through reconfiguration tec...
The always increasing performance demands of applications such as cryptography, scientific simulatio...
The adverse effects of technology scaling on reliability of digital circuits have made the use of fa...
Abstract — This paper proposes a coarse-grained dynamically reconfigurable architecture that offers ...
This thesis explores the potential for using existing flexibility in order to allow Multiprocessor S...
Abstract—Reducing device dimensions, increasing transistor densities, and smaller timing windows, ex...
ISBN 978-1-4244-4596-7International audienceAs we move deeper in the nanotechnology era, computer ar...
Reconfigurable hardware can be employed to tolerate permanent faults. Hardware components comprising...
This thesis is a contribution at the architectural level to the improvement of fault-tolerance in ma...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
\ua9 2014 IEEE. Recent trends in semiconductor technology have dictated the constant reduction of de...
Recent trends in transistor technology have dictated the constant reduction of device size. One nega...
This article presents a chip multiprocessor (CMP) design that mixes coarse- and fine-grained reconfi...
Advances in semiconductor industry have led to reduced transistor dimensions andincreased device den...
L'augmentation continue de la puissance de calcul requise par les applications telles que la cryptog...
In large VLSI/WSI arrays, improved reliability and yield can be obtained through reconfiguration tec...
The always increasing performance demands of applications such as cryptography, scientific simulatio...
The adverse effects of technology scaling on reliability of digital circuits have made the use of fa...
Abstract — This paper proposes a coarse-grained dynamically reconfigurable architecture that offers ...
This thesis explores the potential for using existing flexibility in order to allow Multiprocessor S...
Abstract—Reducing device dimensions, increasing transistor densities, and smaller timing windows, ex...
ISBN 978-1-4244-4596-7International audienceAs we move deeper in the nanotechnology era, computer ar...
Reconfigurable hardware can be employed to tolerate permanent faults. Hardware components comprising...
This thesis is a contribution at the architectural level to the improvement of fault-tolerance in ma...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...