Optical network-on-chip (ONoC) architecture offers ultrahigh bandwidth, low latency, and low power dissipation for new-generation manycore systems. However, the benefits in communication performance and energy efficiency will be diminished by communication contention. The intrinsic thermal susceptibility is another challenge for ONoC designs. Under on-chip temperature variations, core functional devices suffer from significant thermal-induced optical power loss, which seriously threatens ONoCs’ reliability. In this article, we develop novel routing techniques to resolve both issues for ONoCs. By analyzing the thermal effect in ONoCs, we first present a routing criterion at the network level. Combined with device-level thermal tuning, it can...
In this work, we propose an application specific routing algorithm to reduce the hot-spot temperatur...
As number of components on the semi-conductor industry is growing at a healthy rate, results in an i...
International audienceThe increasing need to reduce power consumption and interconnection complexity...
Communication contention and thermal susceptibility are two potential issues in optical network-on-c...
The performance of multiprocessor systems, such as chip multiprocessors (CMPs), is determined not on...
This report explores the work done on optimising Optical Network on Chip (ONoC) routing by minimisin...
The performance of multiprocessor systems, such as chip multiprocessors (CMPs), is determined not on...
Optical network-on-chip (ONoC) is an emerging communication architecture for manycore systems due to...
Multiprocessor systems-on-chip show a trend toward integration of tens and hundreds of processor cor...
Network-on-chip (NoC) can improve the performance, power efficiency, and scalability of chip multipr...
Technology scaling along with power and thermal limitations ushers the industry to the many-core sys...
We propose 3D mesh-based optical network-on-chip (ONoC) based on a novel low-cost 66 optical router,...
We propose 3D mesh-based optical network-on-chip (ONoC) based on a novel low-cost 6×6 optical router...
Network-on-chip (NoC) can improve the performance, power efficiency, and scalability of chip multipr...
Dark silicon is the phenomenon that a fraction of many-core chip has to be turned off or run in a lo...
In this work, we propose an application specific routing algorithm to reduce the hot-spot temperatur...
As number of components on the semi-conductor industry is growing at a healthy rate, results in an i...
International audienceThe increasing need to reduce power consumption and interconnection complexity...
Communication contention and thermal susceptibility are two potential issues in optical network-on-c...
The performance of multiprocessor systems, such as chip multiprocessors (CMPs), is determined not on...
This report explores the work done on optimising Optical Network on Chip (ONoC) routing by minimisin...
The performance of multiprocessor systems, such as chip multiprocessors (CMPs), is determined not on...
Optical network-on-chip (ONoC) is an emerging communication architecture for manycore systems due to...
Multiprocessor systems-on-chip show a trend toward integration of tens and hundreds of processor cor...
Network-on-chip (NoC) can improve the performance, power efficiency, and scalability of chip multipr...
Technology scaling along with power and thermal limitations ushers the industry to the many-core sys...
We propose 3D mesh-based optical network-on-chip (ONoC) based on a novel low-cost 66 optical router,...
We propose 3D mesh-based optical network-on-chip (ONoC) based on a novel low-cost 6×6 optical router...
Network-on-chip (NoC) can improve the performance, power efficiency, and scalability of chip multipr...
Dark silicon is the phenomenon that a fraction of many-core chip has to be turned off or run in a lo...
In this work, we propose an application specific routing algorithm to reduce the hot-spot temperatur...
As number of components on the semi-conductor industry is growing at a healthy rate, results in an i...
International audienceThe increasing need to reduce power consumption and interconnection complexity...