The advent of many-core systems, a network on chip containing hundreds or thousands of homogeneous processors cores, present new challenges in managing the cores effectively in response to processing demands, hardware faults and the need for heat management. Continually diminishing feature size of devices increase the probability of fabrication de- fects and the variability of performance of individual transistors. In many-core systems this can result in the failure of individual processing cores, routing nodes or communication links, which require the use of fault tolerant mechanisms. Diminishing feature size also increases the power density of devices, giving rise to the concept of dark silicon where only a portion of the functionalit...
Many-core platforms based on Network-on-Chip (NoC [Benini and De Micheli 2002]) present an emerging ...
The advances of CMOS technology towards 45 nm,the high costs of ASIC design, power limitations and f...
International audienceThe coming era of chips consisting of billions of gates foreshadows processors...
Modern VLSI transistor densities allow large systems to be implemented within a single chip. As tech...
The always increasing performance demands of applications such as cryptography, scientific simulatio...
L'augmentation continue de la puissance de calcul requise par les applications telles que la cryptog...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
With the onset of multi-core chips, the single-core market is closing down. Those chips constitute a...
2015-02-18As technology scales further down in the nanometer regime, chip manufacturers are able to ...
peer reviewedThe hardware computing landscape is changing. What used to be distributed systems can n...
ISBN 978-1-4673-6377-8International audienceThe coming era of chips consisting of billions of gates ...
Recent increases in hard fault rates in modern chip multi-processors have led to a variety of approa...
Today’s designs are being shaped by the challenges of nano-CMOS technologies: increased power densit...
Future many-core systems need to handle high power density and chip temperature effectively. Some co...
As an effective scheme often adopted for performance tuning in many-core processors, task migration ...
Many-core platforms based on Network-on-Chip (NoC [Benini and De Micheli 2002]) present an emerging ...
The advances of CMOS technology towards 45 nm,the high costs of ASIC design, power limitations and f...
International audienceThe coming era of chips consisting of billions of gates foreshadows processors...
Modern VLSI transistor densities allow large systems to be implemented within a single chip. As tech...
The always increasing performance demands of applications such as cryptography, scientific simulatio...
L'augmentation continue de la puissance de calcul requise par les applications telles que la cryptog...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
With the onset of multi-core chips, the single-core market is closing down. Those chips constitute a...
2015-02-18As technology scales further down in the nanometer regime, chip manufacturers are able to ...
peer reviewedThe hardware computing landscape is changing. What used to be distributed systems can n...
ISBN 978-1-4673-6377-8International audienceThe coming era of chips consisting of billions of gates ...
Recent increases in hard fault rates in modern chip multi-processors have led to a variety of approa...
Today’s designs are being shaped by the challenges of nano-CMOS technologies: increased power densit...
Future many-core systems need to handle high power density and chip temperature effectively. Some co...
As an effective scheme often adopted for performance tuning in many-core processors, task migration ...
Many-core platforms based on Network-on-Chip (NoC [Benini and De Micheli 2002]) present an emerging ...
The advances of CMOS technology towards 45 nm,the high costs of ASIC design, power limitations and f...
International audienceThe coming era of chips consisting of billions of gates foreshadows processors...