ISBN 978-1-4577-1053-7International audienceThe advent of the Deep Submicron technology opens the way to many-cores processor chips. However, the variability and reliability of these processes poses new challenges. In particular, the mapping of applications will require specific strategies to leverage the plenty and diversity of the computation cores. In this work, a high-level study of the variability impact on Thousands-core processors is proposed for future technologies, based on the state-of-art VARIUS model. While many crucial details are yet unknown for these technologies, we suggest several scenarios, based on the existing literature. The obtained results are particularily suitable for Embedded Streaming applications, which both requ...
The inactive part of a chip, termed as Dark Silicon, is extending rapidly by introducing new technol...
As many-core accelerators keep integrating more processing units, it becomes increasingly more diffi...
Multi-core platforms are employing a greater number of heterogeneous cores and resource configuratio...
International audienceThe coming era of chips consisting of billions of gates foreshadows processors...
none6siMultimedia streaming applications running on next-generation parallel multiprocessor arrays i...
This work addresses a research subject with a rich literature: task mapping in NoC-based systems. Ta...
ISBN 978-1-4673-6377-8International audienceThe coming era of chips consisting of billions of gates ...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
This paper presents a run-time resource manager for NoC-based many-core architectures that dynamical...
International audienceInvestigating novel techniques to improve many-core embedded systems lifetime,...
Gao, Guang R.The research proposed in this thesis will provide an analysis of these new scenarios, p...
Abstract: We investigate the energy-efficiency of streaming task collections with par-allelizable or...
The variability of deep-submicron technologies creates systems with asymmetric cores from a frequenc...
International audienceThe search for optimal mapping of application (tasks) onto processor architect...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
The inactive part of a chip, termed as Dark Silicon, is extending rapidly by introducing new technol...
As many-core accelerators keep integrating more processing units, it becomes increasingly more diffi...
Multi-core platforms are employing a greater number of heterogeneous cores and resource configuratio...
International audienceThe coming era of chips consisting of billions of gates foreshadows processors...
none6siMultimedia streaming applications running on next-generation parallel multiprocessor arrays i...
This work addresses a research subject with a rich literature: task mapping in NoC-based systems. Ta...
ISBN 978-1-4673-6377-8International audienceThe coming era of chips consisting of billions of gates ...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
This paper presents a run-time resource manager for NoC-based many-core architectures that dynamical...
International audienceInvestigating novel techniques to improve many-core embedded systems lifetime,...
Gao, Guang R.The research proposed in this thesis will provide an analysis of these new scenarios, p...
Abstract: We investigate the energy-efficiency of streaming task collections with par-allelizable or...
The variability of deep-submicron technologies creates systems with asymmetric cores from a frequenc...
International audienceThe search for optimal mapping of application (tasks) onto processor architect...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
The inactive part of a chip, termed as Dark Silicon, is extending rapidly by introducing new technol...
As many-core accelerators keep integrating more processing units, it becomes increasingly more diffi...
Multi-core platforms are employing a greater number of heterogeneous cores and resource configuratio...